Fire resistant coated steel belt

What is claimed is: 1. A belt for suspending and/or driving an elevator car of an elevator system comprising: a plurality of tension members arranged in a lengthwise direction; a jacket substantially retaining the plurality of tension members, the jacket defining a traction portion, a back portion, and an inner portion between the traction portion and the back portion; and an edge treatment at one or more lateral edges of the belt to increase fire resistance of the lateral edges, the edge treatment entirely perimetrically enclosing a tension member of the plurality of tension members; wherein the traction portion is formed from a first material and the inner portion is formed from a second material having an increased fire resistance compared to the first material. 2. The belt of claim 1 , further comprising one or more intermediate layers disposed between the traction portion and the inner portion, and/or between the inner portion and the back portion. 3. The belt of claim 1 , wherein the one or more intermediate layers are formed from a fiberglass fabric, another fire resistant fabric, or a wire metal mesh. 4. The belt of claim 1 , wherein the back portion has increased fire resistance relative to the traction portion. 5. The belt of claim 1 , wherein the traction portion and the back portion are formed from the same material. 6. The belt of claim 1 , wherein the edge treatment comprises a layer of material located at one or more lateral edges of the belt having increased fire resistance relative to the traction portion. 7. The belt of claim 6 , wherein the layer of material is formed from the second material. 8. The belt of claim 1 , wherein the edge treatment extends in board partially along the traction portion and/or the back portion. 9. The belt of claim 6 , wherein the edge treatment is preformed and secured to the jacket during formation of the jacket. 10. An elevator system comprising: an elevator car movable along a hoistway; a machine disposed in the hoistway to drive rotation of a traction sheave; and a belt operably connected to the elevator car and interactive with the traction sheave such that rotation of the traction sheave drives movement of the elevator car along the hoistway, the belt including: a plurality of tension members arranged in a lengthwise direction; a jacket substantially retaining the plurality of tension members, the jacket defining a traction portion interactive with the traction sheave, a back portion, and an inner portion between the traction portion and the back portion; and an edge treatment at one or more lateral edges of the belt to increase fire resistance of the lateral edges, the edge treatment entirely perimetrically enclosing a tension member of the plurality of tension members; wherein the traction portion is formed from a first material and the inner portion is formed from a second material having an increased fire resistance compared to the first material. 11. The elevator system of claim 10 , further comprising one or more intermediate layers disposed between the traction portion and the inner portion, and/or between the inner portion and the back portion. 12. The elevator system of claim 10 , wherein the one or more intermediate layers are formed from a fiberglass fabric, another fire resistant fabric, or a wire metal mesh. 13. The elevator system of claim 10 , wherein the back portion has increased fire resistance relative to the traction portion. 14. The elevator system of claim 10 , wherein the back portion and the traction portion are formed from the same material. 15. The elevator system of claim 10 , wherein the edge treatment comprises a layer of material having increased fire resistance relative to the traction and/or back portions. 16. The elevator system of claim 15 , wherein the layer of material is formed from the second material. 17. The elevator system of claim 10 , wherein the edge treatment extends partially along the traction portion. 18. A method of forming an elevator system belt, comprising: arranging a plurality of tension members in a lengthwise direction; and securing the plurality of tension members in a jacket by at least partially enclosing the plurality of tension members in the jacket, the jacket including: a traction portion; a back portion; an inner portion having a greater fire resistance than the traction portion; and an edge treatment at one or more lateral edges of the belt to increase fire resistance of the lateral edges, the edge treatment entirely perimetrically enclosing a tension member of the plurality of tension members. 19. The method of claim 18 , further comprising: forming one or more fire retardant edge portions; and securing the one or more edge portions to one or more lateral edges of the jacket. 20. The method of claim 19 , further comprising; preforming the one or more edge portions; guiding the one or more edge portions into a forming tool together with the plurality of tension members; at least partially enclosing the plurality of tension members in the jacket at the forming tool; and securing the one or more preformed edge portions to the jacket at the forming tool.