A sophisticated electrostatic ``variable-axis lens'' is proposed which allows an arbitrary shift of the axis in one direction. For this purpose we employ a periodic arrangement of the electrodes in a direction perpendicular to the initial axis. The excitations of the electrodes is chosen in such a way that stigmatic imaging is conserved when the axis is shifted. The purely electric field components guarantee a fast dynamic shift of both the axis and the focusing field. Owing to the translational symmetry of the arrangement, the system enables larger displacements of the axis than the conventional variable-axis lens A sophisticated electrostatic variable-axis lens is proposed which allows an arbitrary shift of the axis in one direction. For this purpose we employ a periodic arrangement of the electrodes in a direction perpendicular to the initial axis. The excitations of the electrodes is chosen in such a way that stigmatic imaging is conserved when the axis is shifted. The purely electric field components guarantee a fast dynamic shift of both the axis and the focusing field. Owing to the translational symmetry of the arrangement, the system enables larger displacements of the axis than the conventional variable-axis lens.