Rope for a hoisting device and elevator

The invention claimed is: 1. A rope for a hoisting device, which rope has at least one flat outer surface and comprises several parallel load bearing members spaced apart in a width direction of the rope so as to not be in contact with adjacent load bearing members and embedded in a common coating, each of the load bearing members comprising several load bearing strings twisted together, wherein one or more of said load bearing members has at least a substantially polygonal cross-sectional shape, wherein each of the load bearing strings is made of composite material comprising reinforcing fibers embedded in a polymer matrix, the reinforcing fibers of each of the load bearing strings extending parallel to a longitudinal direction of the load bearing string such that the reinforcing fibers of each load bearing string are untwisted in relation to each other in the load bearing string, wherein one or more of said load bearing members has at least one substantially flat outer side face extending in the width direction of the rope, and wherein a number of load bearing strings defining an outside of each load bearing member is greater than a number of sides of the substantially polygonal cross-sectional shape. 2. The rope according to claim 1 , wherein one or more of said load bearing members has at least a substantially rectangular, triangular, pentagonal or hexagonal cross-sectional shape. 3. The rope according to claim 1 , wherein one or more of said load bearing members has at least a substantially quadratic cross-sectional shape. 4. The rope according to claim 1 , wherein the rope has a contoured side surface provided with grooves oriented in a longitudinal direction of the rope, including grooves positioned in the width direction of the rope centrally between adjacent load bearing members. 5. The rope according to claim 1 , wherein the rope has a contoured side surface provided with grooves oriented in a longitudinal direction of the rope, including grooves of a first depth positioned in the width direction of the rope centrally between adjacent load bearing members and grooves of a second depth positioned in the width direction of the rope at the point of a load bearing member, the second depth being smaller than the first depth. 6. The rope according to claim 1 , wherein said load bearing strings include load bearing strings twisted around a center string. 7. The rope according to claim 1 , wherein a center string of said load bearing strings is parallel with a longitudinal direction of the load bearing member. 8. The rope according to claim 1 , wherein said reinforcing fibers are carbon fibers. 9. The rope according to claim 1 , wherein said coating is made of elastomeric material. 10. An elevator comprising a vertically movable elevator car and a roping suspending the car, the roping comprising at least one rope as defined in claim 1 . 11. The rope according to claim 1 , wherein a first layer of said load bearing strings surrounds a center string of said load bearing strings, the first layer leaning against the center string. 12. A rope for a hoisting device, which rope has at least one flat outer surface and comprises several parallel load bearing members spaced apart in a width direction of the rope so as to not be in contact with adjacent load bearing members and embedded in a common coating, each of the load bearing members comprising several load bearing strings twisted together, wherein one or more of said load bearing members has at least a substantially polygonal cross-sectional shape, wherein each of the load bearing strings is made of composite material comprising reinforcing fibers embedded in a polymer matrix, the reinforcing fibers of each of the load bearing strings extending parallel to a longitudinal direction of the load bearing string such that the reinforcing fibers of each load bearing string are untwisted in relation to each other in the load bearing string, wherein one or more of said load bearing members has at least one substantially flat outer side face covered by said coating with at least a substantially constant material thickness, and wherein a number of load bearing strings defining an outside of each load bearing member is greater than a number of sides of the substantially polygonal cross-sectional shape. 13. The rope according to claim 12 , wherein one or more of said load bearing members has at least one at least substantially flat outer side face extending in the width direction of the rope. 14. The rope according to claim 12 , wherein one or more of said load bearing members has at least substantially rectangular, triangular, pentagonal or hexagonal cross-sectional shape. 15. The rope according to claim 12 , wherein one or more of said load bearing members has at least a substantially quadratic cross-sectional shape. 16. A rope for a hoisting device, which rope has at least one flat outer surface and comprises several parallel load bearing members spaced apart in a width direction of the rope so as to not be in contact with adjacent load bearing members and embedded in a common coating, each of the load bearing members comprising several load bearing strings twisted together, wherein one or more of said load bearing members has at least a substantially polygonal cross-sectional shape, wherein each of the load bearing strings is made of composite material comprising reinforcing fibers embedded in a polymer matrix, the reinforcing fibers of each of the load bearing strings extending parallel to a longitudinal direction of the load bearing such that the reinforcing fibers of each load bearing string are untwisted in relation to each other in the load bearing string, wherein a first layer of said load bearing strings surrounds a center string of said load bearings strings, the first layer leaning against the center string, each load bearing string of said first layer having a cross section tapering towards the center string, and wherein a number of load bearing strings defining an outside of each load bearing member is greater than a number of sides of the substantially polygonal cross-sectional shape. 17. The rope according to claim 16 , wherein the load bearing strings of said first layer are in helical formation around the center string.