Method for controlling the normal force of a transport unit of a long stator linear motor

The invention claimed is: 1. A method for controlling a normal force (F Nn ) acting on a transport unit of a conveyor installation in the form of a long stator linear motor on a track section of a conveyor track defined by the conveyor installation, on which track section drive coils of the long stator linear motor are provided on only one side of the transport unit and the transport unit is retained on the conveyor track on this side by guide elements, wherein a number of drive magnets on the transport unit interacts with a number of drive coils for generating the normal force (F Nn ) and the normal force (F Nn ) is controlled with a controller for controlling the normal force (F Nn ), wherein the controller determines a normal-force-forming current component of the drive current of the drive coils interacting with the transport unit so that a resulting normal force (F ΣNn ) acting on the transport unit as the sum of the normal force (F Nn ), a magnetic force (F Mn ) in a normal direction caused by the drive magnets, and an external force (F En ) in the normal direction acting on the transport unit corresponds at least to a specified retaining force (F Nnmin ) in the normal direction. 2. The method according to claim 1 , wherein the controller for controlling the normal force (F Nn ) determines the normal-force-forming current component of the drive current from a known functional relationship between the normal-force-forming current component of the drive current and a setpoint value. 3. The method according to claim 2 , wherein a setpoint flux is specified as the setpoint value, and the normal-force-forming current component is calculated as a quotient of the setpoint flux and a known inductance in the normal direction. 4. The method according to claim 1 , wherein, in the controller for controlling the normal force (F Nn ), the normal-force-forming current component is determined from a difference between a setpoint value and an actual value by way of a normal-force controller. 5. The method according to claim 1 , wherein, in the controller for controlling the normal force (FNn), a pilot current is determined by a pilot control from a setpoint value, and a control current is determined by a normal-force controller from a difference between the setpoint value and an actual value, and the normal-force-forming current component is determined as a sum of the pilot current and the control current. 6. The method according to claim 5 , wherein the pilot current is determined based on a known relationship of a position of the transport unit relative to the conveyor track. 7. The method according to claim 1 , wherein a forward-force-forming current component is determined in a controller for controlling a forward force (Fv n ) of the transport unit and a drive current of the drive coils interacting with the transport unit is determined as a vectorial sum of the forward-force-forming current component and the normal-force-forming current component and the drive current is converted into coil voltages which are applied to the drive coils interacting with the transport unit.