Elevator system

What is claimed is: 1. An elevator system comprising: an elevator car comprising one or more electrical service appliances; a counterweight; a power source housed in the counterweight; and a hoisting cable connected at a first end to the elevator car and at a second end to the counterweight, the hoisting cable comprising carbon nanotube (CNT) braided yarns, wherein the CNT braided yarns mechanically support the elevator car and the counterweight and are electric conductor from the power source to the electrical service appliances, wherein the CNT braided yarns are contained, in tight configuration, in an electrically insulating layer, and wherein the CNT braided yarns are three, each being, respectively, a first conductor to provide a forward current path, a second conductor to provide a return current path, and a third conductor to provide a ground current path. 2. The elevator system according to claim 1 , wherein the carbon nanotube in the yarns are of the multi-wall type. 3. The elevator system according to claim 1 , wherein the carbon nanotube in the yarns are of the few-wall type. 4. The elevator system according to claim 1 , wherein the power source in the counterweight comprises a rechargeable electrical battery. 5. The elevator system according to claim 1 , further comprising a recharger system comprising a fixed power supply source associable to/in an elevator shaft wall, and operatively contacting the power source in the counterweight. 6. The elevator system according to claim 5 , wherein the fixed power supply source electrically contacts the power source. 7. The elevator system according to claim 5 , wherein the fixed power supply source contacts the power source by electromagnetic induction. 8. The elevator system according claim 1 , wherein the elevator car or the counterweight is provided with a first wireless data transceiver. 9. The elevator system according to claim 8 , further comprising a plurality of second wireless data transceivers fixable to an elevator shaft side connected to each other and to a controller that is configured to control them for transmitting or receiving data signals to and from the elevator car or the counterweight. 10. The elevator system according to claim 8 , wherein the hoisting cable carries data signals between the counter-weight and the elevator car. 11. The elevator system according to claim 1 , further comprising an auxiliary cable comprising carbon nanotube yarns mechanically and electrically connected at a third end to the elevator car and at a forth end to the counterweight. 12. An elevator system comprising: a power source housed in a counterweight; and a hoisting cable comprising a first end and a second end, the first end of the hoisting cable being connected to an elevator car and the second end of the hoisting cable being connected to the counterweight, the hoisting cable comprising carbon nanotube (CNT) braided yarns, wherein the CNT braided yarns mechanically support the elevator car and the counterweight and electrically couple the power source to electrical service appliances in the elevator car; and a recharger system comprising a fixed power supply source associable to/in an elevator shaft wall, and operatively contacting the power source in the counterweight, wherein the hoisting cable is made of the CNT braided yarns contained, in tight configuration, in an electrically insulating layer, and wherein the CNT braided yarns are three, each being, respectively, a first conductor to provide a forward current path, a second conductor to provide a return current path, and a third conductor to provide a ground current path. 13. The elevator system according to claim 12 , wherein the fixed power supply source electrically contacts the power source. 14. The elevator system according to claim 12 , wherein the fixed power supply source contacts the power source by electromagnetic induction. 15. The elevator system according to claim 12 , further comprising an auxiliary cable comprising carbon nanotube yarns mechanically and electrically connected at a third end to the elevator car and at a forth end to the counterweight. 16. An elevator system comprising: an elevator car comprising one or more electrical service appliances; a counterweight; a power source housed in the counterweight; a hoisting cable connected at a first end to the elevator car and at a second end to the counterweight, the hoisting cable comprising carbon nanotube (CNT) braided yarns, wherein the CNT braided yarns of the hoisting cable are configured to mechanically support the elevator car and the counterweight and are electric conductor from the power source to the electrical service appliances; and an auxiliary cable connected at one end to the elevator car and at an opposite end to the counterweight, the auxiliary cable comprising CNT braided yarns, wherein the CNT braided yarns of the auxiliary cable are configured to mechanically support the elevator car and the counterweight and provide an electric conductor from the power source to the electrical service appliances. 17. The elevator system according to claim 16 , wherein the elevator car and the counterweight is provided with a first wireless data transceiver, and wherein the first wireless data transceiver of the elevator car and the first wireless data transceiver of the counterweight are configured to communicate with a controller. 18. The elevator system according to claim 16 , wherein the CNT braided yarns are contained, in tight configuration, in an electrically insulating layer, and wherein the CNT braided yarns are three, each being, respectively, a first conductor to provide a forward current path, a second conductor to provide a return current path, and a third conductor to provide a ground current path. 19. The elevator system according to claim 16 , wherein the power source in the counterweight comprises a rechargeable electrical battery. 20. The elevator system according to claim 16 , further comprising a recharger system comprising a fixed power supply source associable to/in an elevator shaft wall, and operatively contacting the power source in the counterweight.