Method for operating an elevator system

The invention claimed is: 1. A method for operating an elevator system, which is embodied as shaft-changing multi-car system, in the case of which a number of cars is assigned to at least three elevator shafts, wherein the cars can be moved in upwards direction and downwards direction inside the individual elevator shafts, as well as between the individual elevator shafts, comprising the following steps: a) in a first operating state, assigning a travel direction UP or DOWN to each individual one of the elevator shafts such that all cars, which are located in a respective elevator shaft, can move only in the respective assigned travel direction, b) for an elevator shaft or a partial quantity of the at least three elevator shafts, canceling the assignment of the travel direction such that all cars, which are located in this one elevator shaft or this partial quantity of the at least three elevator shafts, is or are stopped, respectively, c) reversing the assignment of the travel direction in this one shaft or this partial quantity of the at least three elevator shafts such that all cars, which are located in this one elevator shaft or the partial quantity of the at least three elevator shafts, can move only in the respective newly-assigned travel direction, d) repeating steps b) and c) for further elevator shafts, until a desired number of elevator shafts or all elevator shafts have an assignment of a travel direction UP or DOWN, which is opposite to the assignment during the first operating state, for providing a second operating state, wherein the reversal of the travel directions assigned to the individual elevator shafts is carried out successively, in order to get from the first operating state to the second operating state. 2. The method as claimed in claim 1 , wherein the assignment of all further elevator shafts is maintained during the steps b) and c). 3. The method as claimed in claim 2 wherein during the first operating state, a travel direction UP is assigned to a plurality of elevator shafts and a travel direction DOWN is assigned to a minimum number of elevator shafts, and, in the second operating state, a travel direction DOWN is assigned to a plurality of elevator shafts and a travel direction UP is assigned to a minimum number of elevator shafts or vice versa. 4. The method as claimed in claim 3 wherein a movement of cars between the elevator shafts is carried out in at least one of an upper and a lower area of the respective elevator shafts. 5. The method of claim 1 wherein for operating an elevator system comprising at least one group of three elevator shafts, wherein, in the first operating state, an exclusive travel direction UP is assigned to two shafts in each of the at least one group, and a travel direction DOWN is assigned to one elevator shaft, and, in the second operating state, an exclusive travel direction DOWN is assigned to two elevator shafts, and an exclusive travel direction UP is assigned to one elevator shaft. 6. The method of claim 1 , wherein the information YES or NO is assigned to each car such that, in the event the information YES is assigned to a car, this car is available to transport passengers, and that, in the event that NO is assigned to a car, this car is not available to transport passengers. 7. The method of claim 6 , wherein in the event that NO is assigned to a car, this car can be moved in upwards direction or downward direction, respectively, according to a travel direction, which is assigned to a respective elevator shaft, in which the car is located, but is not available for picking up passengers. 8. The method of claim 3 , wherein the state NO can only be assigned to a car, if it is located in an elevator shaft, which belongs to a current minimum number of the elevator shafts. 9. The method as claimed in claim 8 wherein at least one of a switchover from a first to a second operating state and an assignment of information YES or NO to a car is carried out as a function of at least one captured piece of information. 10. An elevator system, which is embodied as shaft-changing multi-car system, in the case of which a number of cars is assigned to at least three elevator shafts, wherein the cars can be moved in upwards direction and downwards direction inside the individual elevator shafts, as well as between the individual elevator shafts, comprising: a) means for assigning a travel direction UP or DOWN to each of the individual elevator shafts such that all cars, which are located in a respective elevator shaft, are moved only in upwards direction or downwards direction, respectively, b) means for canceling the assignment of the travel direction for an elevator shaft or a partial quantity of the at least three elevator shafts such that all cars, which are located in this one elevator shaft or this partial quantity of the at least three elevator shafts, is stopped, c) means for reversing the assignment of the travel direction in this one shaft or this partial quantity of the at least three elevator shafts such that all cars, which are located in this one elevator shaft or the partial quantity of the at least three elevator shafts, are moved only in one travel direction, which is opposite to the travel direction thereof in the first operating state, d) means for repeating the steps b) and c) for further elevator shafts, until a desired number of elevator shafts or all elevator shafts have an assignment of a travel direction UP or DOWN, which is opposite to the original assignment according to feature a).