Method and apparatus for handling piece goods moved one after the other in at least one row

The invention claimed is: 1. A method for handling piece goods ( 2 ) moved one after another in at least one row ( 1 ), comprising: transporting a plurality of piece goods ( 2 ) as a closed formation (F) to a seizing range ( 4 ) of at least one manipulator ( 5 ), seizing at least two transported piece goods ( 2 ) in the seizing range ( 4 ) in a clamping or force-locking or form-locking manner from the closed formation (F) by clamping elements or gripping elements ( 22 ) of the at least one manipulator ( 5 ); spatially separating the at least two seized piece goods from subsequent piece goods ( 2 ) of the closed formation (F); and transferring the at least two separated piece goods ( 2 ) into a first target position (P 1 ) or target alignment in relation to the subsequent piece goods ( 2 ), releasing at least one of the transferred piece goods ( 2 ) from the clamping elements or gripping elements ( 22 ) of the manipulator ( 5 ), so that it remains in the first target position (P 1 ) or target alignment, subsequently transferring at least one of the at least two transferred piece goods ( 2 ), by the still or again activated clamping elements or gripping elements ( 22 ) of the manipulator ( 5 ) into a second target position (P 2 ) or target alignment that is spaced apart from the first target position (P 1 ) or target alignment while at least one released piece good ( 2 ) remains in the first target position (P 1 ) or target alignment. 2. The method of claim 1 , wherein the transferring of the at least two separated piece goods ( 2 ) comprises moving the at least two separated piece goods ( 2 ) in a direction parallel or diagonal to an original transport direction (TR) of the closed formation (F) and with or without overlapping rotation by a rotation angle of 90° to 270°, and the subsequent transferring of the at least one of the at least two transferred piece goods ( 2 ) comprises moving the at least one of the at least two transferred piece goods ( 2 ) in a linear direction parallel or diagonal to the original transport direction (TR) and with or without overlapping rotation by a rotation angle of 90° to 270°. 3. The method claim 1 , wherein adjacent areas of the clamping elements or gripping elements ( 22 ) are selectively operated to release individual piece goods ( 2 ) in the first target positions (P 1 ), while simultaneously maintaining seizure or clamping of at least one adjacent piece good ( 2 ) for transferring it into at least one further, second target position (P 2 ) that is spaced apart from the first target position (P 1 ). 4. The method as recited in claim 3 , further comprising detecting or monitoring, by at least one sensor, the operation of the at least one manipulator ( 5 ). 5. The method of claim 4 , wherein the at least one sensor comprises an optical sensor. 6. The method of claim 5 , wherein the at least one released piece good ( 2 ) in the first target position (P 1 ) or target alignment by being seized again by the manipulator ( 5 ). 7. The method of claim 6 , wherein the transferring step comprises imparting at least one further velocity component in relation to a transport speed (v 3 ) of the closed formation (F) to the at least two separated piece goods ( 2 ). 8. The method of claim 7 , further comprising repeating the seizing, separating, transferring steps a number of times in succession, thus forming a group for a palletizable layer ( 12 ) or a partial layer of a plurality of piece goods ( 2 ). 9. The method of claim 8 , wherein the subsequent transferring of at least one of the at least two transferred piece goods ( 2 ) comprises rotating the at least one of the at least two transferred piece goods ( 2 ), and comprises shifting at least one other of the at least two transferred piece goods ( 2 ) by the manipulator ( 5 ) or by other piece goods ( 2 ) merely by contact and not in a clamping manner. 10. The method of claim 5 , wherein the optical sensor comprises a camera.