Elevator system

The invention claimed is: 1. An elevator system comprising: a first elevator car movable in a first elevator shaft in a vertical direction; a closed first support means guided about a lower deflection roller and an upper deflection roller in the first elevator shaft; a first drive machine driving the first support means; a first coupling device arranged on the first elevator car; wherein the first support means has a first primary coupling element which, when coupled to the first coupling device, produces a drive connection between the first elevator car and the first support means whereby the first elevator car can be moved in the first elevator shaft by the first support means driven by the first drive machine; wherein the first primary coupling element is a connection element that connects two free ends of the first support means together; and wherein during a normal operation of the elevator system the first coupling device can be coupled to the first primary coupling element and can be decoupled from the first primary coupling element whereby the drive connection between the first elevator car and the first support means can be produced and detached respectively. 2. The elevator system according to claim 1 including: a second elevator car movable in the first elevator shaft in the vertical direction; a closed second support means guided about another lower deflection roller and another upper deflection roller; a second drive machine driving the second support means; a second coupling device arranged on the second elevator car; and wherein the second support means has a second primary coupling element which, when coupled to the second coupling device, produces a drive connection between the second elevator car and the second support means whereby second elevator car can be moved in the first elevator shaft by the second support means driven by the second drive machine. 3. The elevator system according to claim 2 wherein each of the first and second support means has a secondary coupling element to and from which the first and second coupling devices can be coupled and decoupled, respectively, and the primary and secondary coupling elements of each of the first and second support means are arranged such that, in case of a movement of the elevator car coupled to one of the first and second support means from a lower end position to an upper end position, or vice versa, neither of the primary and secondary coupling elements of the one support means is guided about either of the deflection rollers associated with the one support means. 4. The elevator system according to claim 3 wherein the primary and secondary coupling elements of each of the first and second support means are arranged such that, in case of a movement of the elevator car coupled to one of the first and second support means, from the lower end position to the upper end position, or vice versa, neither of the primary and secondary coupling elements of the one support means contacts with either of the deflection rollers associated with the one support means. 5. The elevator system according to claim 3 wherein the primary and secondary coupling elements of each of the first and second support means are arranged such that, when the elevator car coupled to one of the support means via the primary coupling element has reached the upper end position, the secondary coupling element is positioned such that the coupling device of another of the elevator cars arranged in the lower end position can couple to the secondary coupling element. 6. The elevator system according to claim 3 wherein the first and second drive machines are controlled by an elevator controller that reverses a movement direction of the first and second support means for a next movement of the first and second elevator cars when the elevator cars have reached the lower end position or the upper end position. 7. The elevator system according to claim 2 wherein the first elevator car and the second elevator car are movable in the vertical direction in a second elevator shaft arranged parallel to the first elevator shaft, the elevator system having a first transfer device for displacing each of the elevator cars from the first elevator shaft to the second elevator shaft and a second transfer device for displacing the elevator cars from the second elevator shaft to the first elevator shaft, and wherein a movement of the elevator cars in the second elevator shaft is realized analogously to the movement of the elevator cars in the first elevator shaft. 8. The elevator system according to claim 7 wherein the elevator cars are moved only from a bottom to a top of the first elevator shaft, and only from a top to a bottom of the second elevator shaft. 9. The elevator system according to claim 7 wherein an equal number of support means, each having one primary coupling element and one secondary coupling element, are arranged in each of the first elevator shaft and the second elevator shaft, and a number of elevator cars movable in the first and second elevator shafts is at most equal to a total number of the support means. 10. The elevator system according to claim 1 wherein the first support means is a belt. 11. The elevator system according to claim 1 including a guide guiding the first primary coupling element in the first elevator shaft during movement of the first elevator car. 12. The elevator system according to claim 1 including a second coupling device arranged on the first elevator car whereby the first and second coupling devices simultaneously couple to coupling elements of two different support means. 13. The elevator system according to claim 12 wherein the first and second coupling devices are arranged on opposite sides of the first elevator car.