Elevator comprising traction sheave with specified diameter

What is claimed is: 1. An elevator, comprising: an elevator car; a traction sheave that comprises a plurality of grooves; a hoisting machine configured to drive the traction sheave; and a plurality of hoisting ropes configured to interact with the traction sheave to move the elevator car; wherein an overall contact between the traction sheave and the hoisting ropes exceeds a contact angle of 180°, wherein a diameter of the traction sheave is less than 320 mm, wherein each respective hoisting rope of the hoisting ropes comprises steel wires twisted together to form strands, wherein the strands of each respective hoisting rope are twisted together to form the respective hoisting rope, wherein a thickness of each respective hoisting rope is less than 8 mm, wherein the hoisting ropes have a substantially round cross-section, wherein each of the hoisting ropes further comprises an individual exterior coating, wherein an average of wire thicknesses of the steel wires of the hoisting ropes is greater than or equal to 0.1 mm and less than or equal to 0.4 mm, and wherein a strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than 3,000 N/mm 2 . 2. The elevator of claim 1 , wherein underneath the individual exterior coating, each of the hoisting ropes further comprises a filler of rubber, urethane, or polyurethane. 3. The elevator of claim 1 , wherein underneath the individual exterior coating, at least part of spaces between the steel wires of the strands and at least part of the spaces between the strands of the hoisting ropes are filled with rubber, urethane, or polyurethane. 4. The elevator of claim 1 , further comprising: a counterweight; wherein the hoisting ropes are further configured to interact with the traction sheave to move the counterweight, wherein the elevator car is suspended with a suspension ratio of k:1, wherein the counterweight is suspended with a suspension ratio of k:1, wherein ‘k’ is an integer greater than or equal to 2. 5. The elevator of claim 1 , further comprising: a counterweight; wherein the hoisting ropes are further configured to interact with the traction sheave to move the counterweight, wherein the elevator car is suspended with a suspension ratio of m:1, wherein the counterweight is suspended with a suspension ratio of n:1, wherein ‘m’ is an integer greater than or equal to 1, and wherein ‘n’ is an integer greater than ‘m’. 6. The elevator of claim 1 , the thickness of each respective hoisting rope is about 4 mm, and wherein the strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than or equal to 2,700 N/mm 2 . 7. The elevator of claim 1 , wherein the thickness of each respective hoisting rope is about 6 mm, and wherein the strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than or equal to 2,700 N/mm 2 . 8. The elevator of claim 1 , wherein each of the grooves has an opening for receiving a hoisting rope from among the hoisting ropes, wherein a width of the opening is less than a diameter of a respective rope groove, wherein a groove coating is adhesively bonded to each of the grooves, and wherein in each of the grooves, the groove coating has a crescent-shaped cross-section. 9. An elevator, comprising: an elevator car; a traction sheave that comprises a plurality of grooves; a hoisting machine configured to drive the traction sheave; and a plurality of beltless hoisting ropes configured to interact with the traction sheave to move the elevator car; wherein an overall contact between the traction sheave and the hoisting ropes exceeds a contact angle of 180°, wherein a diameter of the traction sheave is less than 320 mm, wherein each respective hoisting rope of the hoisting ropes comprises steel wires twisted together to form strands, wherein the strands of each respective hoisting rope are twisted together to from the respective hoisting rope, wherein a thickness of each respective hoisting rope is less than 8 mm, wherein each of the hoisting ropes individually contacts one of the plurality of grooves, wherein an average of wire thicknesses of the steel wires of the hoisting ropes is greater than or equal to 0.1 mm and less than or equal to 0.4 mm, and wherein a strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than 3,000 N/mm 2 . 10. The elevator of claim 9 , wherein the hoisting ropes are uncoated. 11. The elevator of claim 10 , wherein although the hoisting ropes are uncoated, each of the hoisting ropes further comprises a filler of rubber, urethane, or polyurethane. 12. The elevator of claim 11 , wherein although the hoisting ropes are uncoated, the filler forms a surface part of the hoisting ropes made of rubber, urethane, or polyurethane. 13. The elevator of claim 9 , wherein each of the hoisting ropes further comprises a filler of rubber, urethane, or polyurethane. 14. The elevator of claim 9 , further comprising: a counterweight; wherein the hoisting ropes are further configured to interact with the traction sheave to move the counterweight, wherein the elevator car is suspended with a suspension ratio of k:1, wherein the counterweight is suspended with a suspension ratio of k:1, wherein ‘k’ is an integer greater than or equal to 2. 15. The elevator of claim 9 , further comprising: a counterweight; wherein the hoisting ropes are further configured to interact with the traction sheave to move the counterweight, wherein the elevator car is suspended with a suspension ratio of m:1, wherein the counterweight is suspended with a suspension ratio of n:1, wherein ‘m’ is an integer greater than or equal to 1, and wherein ‘n’ is an integer greater than ‘m’. 16. The elevator of claim 9 , wherein the thickness of each respective hoisting rope is about 4 mm, and wherein the strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than or equal to 2,700 N/mm 2 . 17. The elevator of claim 9 , wherein the thickness of each respective hoisting rope is about 6 mm, and wherein the strength of the steel wires of the hoisting ropes is greater than 2,300 N/mm 2 and less than or equal to 2,700 N/mm 2 . 18. The elevator of claim 9 , wherein each of the grooves has an opening for receiving a hoisting rope from among the hoisting ropes, wherein a width of the opening is less than a diameter of a respective rope groove, wherein a groove coating is adhesively bonded to each of the grooves, and wherein in each of the grooves, the groove coating has a crescent-shaped cross-section. 19. An elevator, comprising: an elevator car; a traction sheave that comprises a plurality of grooves; a hoisting machine configured to drive the traction sheave; and a plurality of hoisting ropes configured to interact with the traction sheave to move the elevator car; wherein an overall contact between the traction sheave and the hoisting ropes exceeds a contact angle of 180°, wherein a diameter of the traction sheave is less than 320 mm, wherein each respective hoisting rope of the hoisting ropes comprises steel wires twisted together to form strands, wherein the strands of each respective hoisting rope are twisted together to form the respective hoisting rope, wherein a thickness of each respective hoisting rope is less than 8 mm, wherein each of the hoisting ropes further comprises an exterior coating, wherein each of the exterior-coated hoisting ropes