Synthetic fiber rope for hoisting in an elevator

What is claimed is: 1. An elevator, comprising: a drive sheave; a power source for rotating the drive sheave; an elevator car; and a hoisting rope system for moving the elevator car by means of the drive sheave, said hoisting rope system comprising: at least one hoisting rope connected to the elevator car and having a width that is larger than a thickness in a transverse direction of the hoisting rope, wherein the hoisting rope comprises only one to seven load-bearing parts made of a composite material, said composite material comprising reinforcing fibers in a polymer matrix, said reinforcing fibers including carbon fiber or glass fiber, wherein said reinforcing fibers are substantially mutually non-entangled and parallel to the lengthwise direction of the at least one hoisting rope, wherein, when there are more than one load-bearing parts, the load-bearing parts are spaced from each other, wherein individual fibers of the synthetic reinforcing fibers are evenly distributed in said polymer matrix, and wherein said load-bearing part is substantially quadrilateral in cross-section such that the load bearing part consists of only the composite material within said cross-section. 2. The elevator according to claim 1 , wherein said reinforcing fibers are continuous fibers oriented in the lengthwise direction of the hoisting rope and extending throughout the entire length of the hoisting rope. 3. The elevator according to claim 1 , wherein said reinforcing fibers are bound together as an integral load-bearing part by said polymer matrix. 4. The elevator according to claim 1 , wherein said reinforcing fibers are bound together as an integral load-bearing part by said polymer matrix, at a manufacturing stage by immersing the reinforcing fibers in polymer matrix material. 5. The elevator according to claim 1 , wherein said load-bearing part consists essentially of straight reinforcing fibers parallel to the lengthwise direction of the hoisting rope and bound together by a polymer matrix to form an integral element. 6. The elevator according to claim 1 , wherein substantially all of the reinforcing fibers of said load-bearing part are oriented in the lengthwise direction of the hoisting rope. 7. The elevator according to claim 1 , wherein said load-bearing part is an integral elongated body. 8. The elevator according to claim 1 , wherein the structure of the hoisting rope continues as a substantially uniform structure throughout the length of the hoisting rope. 9. The elevator according to claim 1 , wherein the structure of the load-bearing part continues as a substantially uniform structure throughout the length of the hoisting rope. 10. The elevator according to claim 1 , wherein the polymer matrix consists essentially of non-elastomeric material. 11. The elevator according to claim 1 , wherein the coefficient of elasticity of the polymer matrix is over 2.5 GPa. 12. The elevator according to claim 1 , wherein the coefficient of elasticity of the polymer matrix is in the range of 2.5 to 3.5 GPa. 13. The elevator according to claim 1 , wherein the polymer matrix comprises epoxy, polyester, phenolic plastic or vinyl ester. 14. The elevator according to claim 1 , wherein over 50% of the cross-sectional square area of the load-bearing part consists of said reinforcing fiber. 15. The elevator according to claim 1 , wherein about 60% of the cross-sectional square area of the load bearing part consists of reinforcing fiber and about 40% of matrix material. 16. The elevator according to claim 1 , wherein the reinforcing fibers together with the matrix material form an integral load-bearing part, inside which substantially no chafing relative motion between fibers or between fibers and matrix takes place. 17. The elevator according to claim 1 , wherein the width of the load-bearing part is larger than a thickness thereof in a transverse direction of the hoisting rope. 18. The elevator according to claim 1 , wherein the hoisting rope comprises a number of said load-bearing parts placed mutually adjacently. 19. The elevator according to claim 1 , wherein the hoisting rope comprises outside the composite part at least one metallic element in the form of a wire, lath or metallic grid. 20. The elevator according to claim 1 , wherein the load-bearing part is surrounded by a polymer layer, consisting essentially of an elastomer. 21. The elevator according to claim 1 , wherein the load-bearing part covers a main portion of the cross-section of the hoisting rope. 22. The elevator according to claim 1 , wherein the hoisting rope comprises a number of said load-bearing parts and said load bearing parts cover a main portion of the cross-section of the hoisting rope. 23. The elevator according to claim 1 , wherein the elevator comprises a number of said hoisting ropes side by side and in direct contact with a circumference of the drive sheave. 24. The elevator according to claim 1 , wherein the elevator comprises a first belt-shaped rope or rope portion placed against a pulley, and a second belt-shaped rope or rope portion placed against the first rope or rope portion, and said ropes or rope portions are fitted on the circumference of the pulley one over the other as seen from the direction of a bending radius of the hoisting rope. 25. The elevator according to claim 1 , wherein the hoisting rope has been arranged to move the elevator car and a counterweight. 26. The elevator according to claim 1 , wherein the hoisting height of the elevator is over 250 meters. 27. The elevator according to claim 1 , wherein substantially all of spaces between the reinforcing fibers in the load-bearing part are filled with the polymer matrix. 28. An elevator, comprising: a drive sheave; a power source for rotating the drive sheave; an elevator car; and a hoisting rope system for moving the elevator car by means of the drive sheave, said hoisting rope system comprising: at least one hoisting rope connected to the elevator car and having a width that is larger than a thickness in a transverse direction of the hoisting rope, wherein the hoisting rope comprises a load-bearing part made of a composite material, said composite material comprising synthetic reinforcing fibers in a polymer matrix, wherein said synthetic reinforcing fibers are substantially mutually non-entangled and oriented in the lengthwise direction of the at least one hoisting rope, wherein the hoisting height of the elevator is over 250 meters, wherein individual fibers of the synthetic reinforcing fibers are evenly distributed in said polymer matrix, and wherein said load-bearing part is substantially quadrilateral in cross-section such that the load bearing part consists of only the composite material within the cross-section. 29. An elevator, comprising: a drive sheave; a power source for rotating the drive sheave; an elevator car; and a hoisting rope system for moving the elevator car by means of the drive sheave, said hoisting rope system comprising: at least one hoisting rope connected to the elevator car and having a width that is larger than a thickness in a transverse direction of the hoisting rope, wherein the hoisting rope comprises only one to seven load-bearing parts made of a composite material, said composite material comprising reinforcing fibers in a polymer matrix, said reinfor