Elevator drive machinery and elevator

The invention claimed is: 1. A drive machinery for an elevator comprising: a rotatable drive sheave for driving plurality of ropes of the elevator, the rotatable drive sheave including, a central cylinder having a central axis around which the central cylinder is rotatable; a plurality of circular rim members surrounding the central cylinder, the plurality of circular rim members each having an outer rim surface for engaging a rope, the plurality of circular rim members includes one or more rotatably mounted circular rim members, each of the one or more rotatably mounted circular rim members being mounted on the central cylinder rotatably around said central axis relative to the central cylinder and relative to one or more of other ones of the plurality of circular rim members; and a control device mounted on the central cylinder, the control device configured to control rotation of each of the one or more rotatably mounted circular rim members relative to the central cylinder and relative to the other ones of the plurality of circular rim members. 2. The drive machinery according to claim 1 , wherein said control device is electrically controllable. 3. The drive machinery according to claim 1 , wherein each of the one or more rotatably mounted circular rim members is arranged to be rotated by the central cylinder via the control device. 4. The drive machinery according to claim 1 , wherein the drive machinery further comprises: a motor for rotating the central cylinder. 5. The drive machinery according to claim 4 , wherein the motor for rotating the central cylinder is arranged to produce forces for rotating the one or more rotatably mounted circular rim members, said forces being arranged to be transmitted from the motor to the central cylinder and further therefrom to the one or more rotatably mounted circular rim members via the control device. 6. The drive machinery according to claim 1 , wherein each of the one or more rotatably mounted circular rim members is mounted via bearings on the central cylinder, said bearings including one or more of sliding bearings or rolling element bearings. 7. The drive machinery according to claim 1 , wherein each of the one or more rotatably mounted circular rim members is mounted, preferably via bearings on the central cylinder, said bearings including one or more of sliding bearings or rolling element bearings such that the one or more rotatably mounted circular rim members is rotatable relative to the central cylinder as well as relative to the other ones of the plurality of circular rim members an unlimited rotation angle. 8. The drive machinery according to claim 1 , wherein the central cylinder is at least partly hollow such that the central cylinder comprises an inside space for accommodating at least partly said control device. 9. The drive machinery according to claim 1 , wherein the central cylinder has one or more openings leading radially out from an inside space, and the control device comprise one or more operating members extending, via said one or more openings into contact with the one or more rotatably mounted circular rim members. 10. The drive machinery according to claim 1 , wherein said control device comprises: a control motor electrically controllable to rotate the one or more rotatably mounted circular rim members relative to the central cylinder as well as relative to the other ones of the plurality of circular rim members. 11. The drive machinery according to claim 10 , wherein said control motor is electrically controllable to reduce or increase an angular velocity of the one or more rotatably mounted circular rim members relative to the angular velocity of one or more of the central cylinder or the other ones of the plurality of circular rim members. 12. The drive machinery according to claim 10 , wherein the one or more rotatably mounted circular rim members each have a tooth pattern, and wherein said control motor is arranged to rotate a toothed sheave meshing with said tooth pattern, the tooth pattern being circular forming a full circle of teeth. 13. The drive machinery according to claim 1 , wherein said control device comprises: a releasable locking mechanism for locking the one or more rotatably mounted circular rim members to be immovable relative to the central cylinder, which releasable locking mechanism is releasable to allow rotation of the one or more rotatably mounted circular rim members relative to the central cylinder as well as relative to the other ones of the plurality of circular rim members, and an electrically controllable actuator for moving the releasable locking mechanism between released and locked state. 14. The drive machinery according to claim 1 , wherein said control device comprises: a hydraulic motor operatively connected to the one or more rotatably mounted circular rim members for rotating it the one or more rotatably mounted circular rim members relative to the central cylinder as well as relative to the other ones of the plurality of circular rim members. 15. The drive machinery according to claim 1 , wherein said control device comprises: a brake for braking rotation of the one or more rotatably mounted circular rim members relative to the central cylinder, and a controller configured to control the brake. 16. An elevator comprising: the drive machinery of claim 1 , and the plurality of ropes arranged to pass around the drive rotatable sheave. 17. The elevator according to claim 16 , wherein each of the plurality of ropes includes a coating made from a polymer material forming an outer surface thereof, wherein the coating is in contact with the outer rim surface of the plurality of circular rim members of the rotatable drive sheave. 18. The elevator according to claim 16 , wherein the elevator further comprises: a tension sensor configured to sense individual tension of one of the plurality of ropes passing around the one or more rotatably mounted circular rim members, the elevator being arranged to control rotation of the one or more rotatably mounted circular rim members with said control device based on the individual tension of the one of the plurality of ropes. 19. The elevator according to claim 18 , wherein the elevator is arranged to, compare the individual tension of the one of the plurality of ropes with one or more reference tensions to generate a comparison result, and control rotation of the one or more rotatably mounted circular rim members with said control device based on the comparison result. 20. The elevator according to claim 19 , wherein the elevator is configured to control rotation of the one or more rotatably mounted circular rim members with said control device such that difference between the individual tension and the one or more reference tensions is reduced. 21. A rotatable drive sheave for driving plurality of ropes of the elevator, the rotatable drive sheave comprising: a central cylinder having a central axis around which the central cylinder is rotatable; a plurality of circular rim members surrounding the central cylinder, the plurality of circular rim members each having an outer rim surface for engaging a rope, the plurality of circular rim members includes one or more rotatably mounted circular rim members, each of the one or more rotatably mounted circular rim members being mounted on the central cylinder rotatably around said central axis relative to the central cylinder and relative to one or more of other ones of the plurality