EC motor with cast armature shaft

What is claimed is: 1. An EC motor comprising: a stator in which an armature is rotatably supported, the armature including an armature shaft on which an armature core having a plurality of permanent magnets is held, the armature core being electrically insulated against the armature shaft via a casting compound; a balance ring provided on at least one axial end of the armature core, which is accommodated on the armature shaft by a central recess, wherein the central recess of the balance ring forms a gap between the armature shaft and the balance ring, the gap being filled with the casting compound, wherein the permanent magnets are held in pockets of the armature core by the casting compound, and wherein the gap formed by the central recess of the balance ring is designed as a sprue for introducing the casting compound into a further gap, provided between the armature core and the armature shaft, as well as into the pockets of the armature core. 2. The EC motor according to claim 1 , wherein the balance ring is provided on both ends of the armature core, such that two balance rings are provided which each have the gap designed as the sprue for introducing the casting compound into the further gap, provided between the armature core and the armature shaft as well as into the pockets of the armature core. 3. The EC motor according to claim 1 , wherein an outer diameter of the balance ring corresponds to an outer diameter of the armature core. 4. The EC motor according to claim 1 , wherein the balance ring is closed in a direction of the armature core by an annular projection on a side facing the armature core. 5. The EC motor according to claim 4 , wherein the annular projection is flush with an outer surface of the balance ring. 6. The EC motor according to claim 4 , wherein the annular projection axially supports the permanent magnets. 7. The EC motor according to claim 4 , wherein the balance ring has an inner circumferential surface facing the armature shaft and an outer circumferential surface facing away from the armature shaft, wherein the annular projection projects toward the side of the balance ring facing the armature core at a position that is closer to the outer circumferential surface than the inner circumferential surface. 8. The EC motor according to claim 1 , wherein the central recess of the balance ring is provided with form-fitting elements in the form of seams or grooves. 9. The EC motor according to claim 1 , wherein the balance ring is made from a brass alloy or a comparable non-magnetic material, and wherein the armature shaft is made from steel. 10. The EC motor according claim 1 , wherein, with respect to an axial direction of the armature shaft, a portion of the balance ring is spaced apart from the armature core and the pockets so as to form a spacing that is in fluid communication with the gap formed by the central recess of the balance ring to introduce the casting compound in the gap formed by the central recess of the balance ring into the pockets. 11. An EC motor comprising: a stator in which an armature is rotatably supported, the armature including an armature shaft on which an armature core having a plurality of permanent magnets is held, the armature core being electrically insulated against the armature shaft via a casting compound; a balance ring provided on at least one axial end of the armature core, which is accommodated on the armature shaft by a central recess, wherein the central recess of the balance ring forms a gap between the armature shaft and the balance ring, the gap being filled with the casting compound, wherein the permanent magnets are held in pockets of the armature core by the casting compound, and wherein at least one of the permanent magnets is fixed in a respective one of the pockets by a protruding nose of a lamination of the armature core, and wherein at least two or four laminations have the nose.