Method and apparatus for handling piece goods moved one after another

The invention claimed is: 1. A method for handling piece goods ( 2 ) moved one after another, comprising: transporting piece goods ( 2 ) to a seizing range ( 4 ) of a manipulator ( 5 ), wherein seizing at least one transported piece good ( 2 ) or a group of at least two transported piece goods ( 2 ) from an unspaced succession as a closed formation (F), in the seizing range ( 4 ) in a clamping or force-locking or form-locking manner by at least two clamping devices or grippers ( 22 ) located opposite each other and assigned to the at least one manipulator ( 5 ); spatially separating the seized piece good ( 2 ) or the group of at least two piece goods ( 2 ) from subsequent piece goods ( 2 ) of the closed formation (F); and transferring the at least one separated piece good ( 2 ) into a specified relative target position (P) or target alignment in relation to subsequent piece goods ( 2 ) of the closed formation (F); wherein one first vertical symmetry plane (S 2 *), which is defined by the at least one piece good ( 2 ) seized by the at least two clamping devices or grippers of the at least one manipulator ( 5 ), and which is oriented about perpendicular to a transport direction (TR) of the piece goods ( 2 ), is spaced apart from a second vertical symmetry plane (S 5 ) aligned about parallel thereto, with the second vertical symmetry plane (S 5 ) being defined by the manipulator ( 5 ) or by the manipulator clamping devices or grippers ( 22 ). 2. The method of claim 1 , further comprising: repeatedly seizing one transported piece good ( 2 ) or a group of at least two transported piece goods ( 2 ) from the closed formation (F) in a plurality of temporally consecutive steps and then transferring the one seized piece goods( 2 ) or a group of at least two seized piece goods ( 2 ) into a particular specified relative target position (P) or target alignment in relation to subsequent piece goods ( 2 ) of the closed formation (F), and forming a palletizable layer or a pre-group for a palletizable layer from the piece goods ( 2 ), wherein individual, a plurality of, or all piece goods ( 2 ) are rotated by a rotation angle of at least 90° about a vertical axis. 3. The method of claim 2 , wherein the seizing step comprises seizing at least two piece goods ( 2 ) from the closed formation (F) at least approximately simultaneously. 4. The method claim 2 , wherein the seizing step comprises seizing a different number of piece goods ( 2 ) each from the closed formation (F) in at least two or more temporally consecutive steps. 5. The method of claim 2 , wherein the seizing step comprises seizing at least one individual piece good ( 2 ) each from the closed formation (F) in at least two or more temporally consecutive steps. 6. The method of claim 2 , wherein the seizing step comprises seizing one foremost transported piece good ( 2 ) each or a plurality of foremost transported piece goods ( 2 ) of a plurality of transported piece goods ( 2 ) from the closed formation (F) in the at least two temporally consecutive steps. 7. The method claim 6 , wherein the seizing step comprises seizing the piece goods ( 2 ) from the closed formation (F) with a manipulator ( 5 ) comprising a kinematic robot ( 42 ) or a part of a delta kinematic robot ( 42 ). 8. The method of claim 7 , wherein the seizing step comprises seizing the piece goods ( 2 ) from the closed formation (F) in a clamping or force-locking or form-locking manner in each case by at least two movable manipulator ( 5 ) clamping devices or grippers ( 22 ) located opposite each other, and wherein, after having been brought into their particular specified target position (P), releasing the piece goods ( 2 ). 9. The method of claim 8 , further comprising further transporting the non-seized piece goods ( 2 ) of the closed formation (F) interruption-free or at unchanged transport speed during the seizing step, during the spatial separating step, or during the transferring step. 10. The method of claim 9 , further comprising further transporting the at least one seized piece good ( 2 ), without interruption or without speed change or direction change, upon or immediately after reaching its target position (P) or target alignment. 11. The method of claim 10 , wherein the separating step comprises imparting to the at least one piece good ( 2 ) seized from the closed formation (F) at least one further velocity component or direction component relative to a transport speed (v 3 ) of the at least one seized piece good ( 2 ). 12. The method of claim 1 , further comprising: repeatedly seizing one transported piece good ( 2 ) or a group of at least two transported piece goods ( 2 ) from the closed formation (F) in a plurality of temporally consecutive steps and then transferring the one seized piece goods( 2 ) or a group of at least two seized piece goods ( 2 ) into a particular specified relative target position (P) or target alignment in relation to subsequent piece goods ( 2 ) of the closed formation (F), and further processing or supplying two or more rows of piece goods ( 2 ) a packaging station or palletizing the piece goods ( 2 ), wherein individual, a plurality of, or all piece goods ( 2 ) are rotated by a rotation angle of at least 90° about a vertical axis. 13. An apparatus ( 10 ) for handling piece goods ( 2 ) moved one after another, the apparatus ( 10 ) comprising: at least one manipulator ( 5 ) with clamping devices or grippers ( 22 ) for handling piece goods ( 2 ); at least one transport device by which consecutive piece goods ( 2 ) are transportable in an unspaced succession as a closed formation (F) into a seizing range ( 4 ) of the at least one manipulator ( 5 ), wherein the at least one manipulator ( 5 ) seizes one piece good ( 2 ) or a group of at least two piece goods ( 2 ) in a clamping or force-locking or form-locking manner, and separates the piece good ( 2 ) or the group of piece goods ( 2 ) from the piece goods ( 2 ) of the closed formation (F) and transfers the seized piece good ( 2 ) or the seized group of piece goods ( 2 ) to a target position (P) or target alignment; and wherein a first vertical symmetry plane (S 2 *) is spaced apart from a second vertical symmetry plane (S 5 ) aligned about parallel thereto, wherein the first vertical symmetry plane (S 2 *) is about perpendicular to a transport direction (TR) and defined by defined by the seized piece good ( 2 ) or the seized group of piece goods ( 2 ), and wherein the second vertical symmetry plane (S 5 ) is defined by the manipulator ( 5 ) or by the manipulator clamping devices or grippers ( 22 ). 14. The apparatus ( 10 ) of claim 13 , wherein the at least one manipulator ( 5 ) is capable of performing a plurality of temporally consecutive steps, wherein, in each consecutive step, the manipulator ( 5 ) seizes one piece good ( 2 ) or a group of at least two piece goods ( 2 ) and separates the one seized piece good ( 2 ) or a group of at least two piece goods ( 2 ) from the subsequent piece goods ( 2 ) of the closed formation (F), and transfers the separated piece good ( 2 ) or a group of at least two separated piece goods ( 2 ) into a particular target position (P) or target alignment. 15. The apparatus ( 10 ) of claim 14 , wherein the at least one manipulator ( 5 ) has at least two movable or openable and closable, clamping devices or grippers ( 22 ) located opposite each other. 16. The apparatus ( 10 ) claim 15 , wherein the at least one manipulator ( 5 ) is capable of rotating individual, a plurality of, or all piece goods ( 2 ) about a vertical axis and through a rotation angle of at least 9