Apparatus and method for inserting a circular-blank core into a circular-blank ring

The invention claimed is: 1. Apparatus ( 10 ) for inserting a round blank core ( 11 ) with a non-round outside contour ( 12 ) in a round blank ring ( 13 ) having a hole ( 14 ) with an inside contour ( 15 ) adapted to the non-round outside contour ( 12 ) of the round blank core ( 11 ), the apparatus comprising: a transporting device ( 20 ) configured to transport the round blank ring ( 13 ) to an insertion location ( 22 ), a feed device ( 33 ) configured to position a round blank core ( 11 ) at the insertion location ( 22 ) on the hole ( 14 ) of the round blank ring ( 13 ), a pushing-in device ( 43 ) that comprises a movable pushing-in part ( 44 ) configured to apply a pushing-in force (F) to the round blank core ( 11 ) positioned by the feed device ( 33 ) at the insertion location ( 22 ), said force acting toward the round blank ring ( 13 ), wherein the pushing-in device ( 43 ) has, at the insertion location ( 22 ), an alignment device ( 45 ) configured to rotate the round blank ring ( 13 ) relative to the round blank core ( 11 ). 2. Apparatus as in claim 1 , wherein the alignment device ( 45 ) comprises: a support ring ( 46 ) with a support surface ( 47 ) for the round blank ring ( 13 ), and an alignment mandrel ( 48 ) with a non-round contour, wherein the support ring ( 46 ) can be moved relative to the alignment mandrel ( 48 ) due to the pushing-in force (F) of the pushing-in part ( 44 ). 3. Apparatus as in claim 2 , wherein the support ring ( 46 ) is pretensioned via a pretensioning means ( 55 ) in an non-actuated starting position (AL). 4. Apparatus as in claim 2 , wherein the alignment mandrel ( 48 ) has, on its shell surface ( 49 ), at least three contact points ( 50 ) spaced apart in circumferential direction (U), said contact points being provided for contact of the hole ( 14 ) of the round blank ring ( 13 ) on the inside contour ( 15 ) of the hole ( 14 ). 5. Apparatus as in claim 2 , wherein the transporting device ( 20 ) has a transport surface ( 24 ) configured to provide sliding transport of the round blank ring ( 13 ) to the insertion location ( 22 ), and wherein the support surface ( 47 ) of the support ring ( 46 ) in its starting position (AL) and the transport surface ( 24 ) at the insertion location ( 22 ) are arranged in a common plane. 6. Apparatus as in claim 1 , wherein the transporting device ( 20 ) has a transport surface ( 24 ) configured to provide sliding transport of the round blank ring ( 13 ) to the insertion location ( 22 ). 7. Apparatus as in claim 6 , wherein the transporting device ( 20 ) comprises a transport part ( 26 ) that can be moved relative to the transport surface ( 24 ), said transport part having a round blank recess ( 28 ) configured to receive the round blank ring ( 13 ), said recess being open toward the transport surface ( 24 ) and on the side opposite the transport surface ( 24 ). 8. Apparatus as in claim 1 , wherein the feed device ( 33 ) comprises a movable feed part ( 34 ) that has a core recess ( 35 ) configured to receive the round blank core ( 11 ). 9. Apparatus as in claim 8 , wherein the feed part ( 34 ) can be moved in a translatory manner in a feed direction (Z) that is oriented transversely with respect to a transport direction of the transporting device ( 20 ). 10. Apparatus as in claim 1 , wherein the feed device ( 33 ) comprises a feed means ( 60 ) that transports the round blank core ( 11 ) to the pushing-in part ( 44 ) whose movement further transports the round blank core ( 11 ) to the round blank ring ( 13 ) and, subsequently, applies the pushing-in force (F) against the round blank ring ( 13 ). 11. Method for inserting a round blank core ( 11 ) with a non-round outside contour ( 12 ) into a round blank ring ( 13 ) that has a hole ( 14 ) with an inside contour ( 15 ) adapted to the non-round outside contour ( 15 ) of the round blank core ( 11 ), the method comprising: transporting the round blank ring ( 13 ) to the insertion location ( 22 ) of a transporting device ( 20 ), positioning the round blank core ( 11 ) at the insertion location ( 22 ) on the hole ( 14 ) of the round blank ring ( 13 ) by a feed device ( 33 ), applying a pushing-in force (F) to the round blank core ( 11 ) positioned at the insertion location ( 22 ) toward the round blank ring ( 13 ) by a movable pushing-in part ( 44 ) of a pushing-in device ( 43 ), twisting the round blank ring ( 13 ) relative to the round blank core ( 11 ) by an alignment device ( 45 ) when the round blank core ( 11 ) is in contact with the round blank ring ( 13 ) with the pushing-in force (F) present. 12. Method as in claim 11 , wherein the twisting of the round blank ring ( 13 ) is accomplished in that a support ring ( 46 ) with a support surface ( 47 ) for the round blank ring ( 13 ) provided on the insertion location ( 22 ) is shifted together with the round blank ring ( 13 ) by the pushing-in force (F) via an alignment mandrel ( 48 ) having a non-round cross-section, and that the round blank ring ( 13 ) is rotated in its circumferential direction (U) due to contact with the alignment mandrel ( 48 ). 13. Method as in claim 11 , wherein a round blank including the round blank ring ( 13 ) and the inserted round blank core ( 11 ) is transported to an output location ( 23 ) and is output there directly to an embossing press or to an additional transport unit.