Glass ribbon manufacturing apparatus and method for manufacturing glass ribbon

The invention claimed is: 1. A glass ribbon manufacturing apparatus comprising: an annealing region for annealing a formed glass ribbon to remove an internal strain thereof; a cooling region for cooling the glass ribbon being annealed to a vicinity of a room temperature; and a plurality of support rollers configured to support both sides of the glass ribbon in a width direction and arranged along a direction of downward movement of the glass ribbon in the annealing region and the cooling region, wherein at least one of the plurality of support rollers comprises a shape stabilization roller configured to stabilize a shape of the glass ribbon curved in the width direction, wherein the shape stabilization roller comprises: a first roller being arranged on one surface side of the glass ribbon and having a pair of support portions configured to support only end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction; and a second roller being arranged on another surface side of the glass ribbon and having a pair of support portions configured to support only the end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction, wherein an inner end portion of each of the pair of the support portions of the first roller in the width direction is positioned on an outer side, in the width direction, of an outer end portion of a corresponding one of the pair of the support portions of the second roller in the width direction, and wherein a distance between the pair of support portions of the first roller and the pair of support portions of the second roller of the shape stabilization roller in a thickness direction of the glass ribbon is positive. 2. The glass ribbon manufacturing apparatus according to claim 1 , wherein an uppermost support roller, in the cooling region, of the plurality of support rollers is the shape stabilization roller. 3. The glass ribbon manufacturing apparatus according to claim 2 , wherein another support roller, in the annealing region, of the plurality of support rollers is another shape stabilization roller. 4. The glass ribbon manufacturing apparatus according to claim 3 , wherein the another shape stabilization roller comprises: a first roller being arranged on the other surface side of the glass ribbon and having a pair of support portions configured to support only the end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction; and a second roller being arranged on the one surface side of the glass ribbon and having a pair of support portions configured to support only the end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction, and wherein an inner end portion of each of the pair of the support portions of the first roller of the another shape stabilization roller in the width direction is positioned on an outer side, in the width direction, of an outer end portion of a corresponding one of the pair of the support portions of the second roller of the another shape stabilization roller in the width direction. 5. The glass ribbon manufacturing apparatus according to claim 3 , further comprising an auxiliary roller arranged below the another shape stabilization roller in the annealing region and being configured to auxiliarly stabilize the shape of the glass ribbon curved in the width direction, wherein the another shape stabilization roller comprises a first roller and a second roller, wherein the auxiliary roller comprises a first roller and a second roller, and wherein a distance between the first roller and the second roller of the auxiliary roller in the thickness direction of the glass ribbon is larger than a distance between the first roller and the second roller of the another shape stabilization roller provided in the annealing region in the thickness direction. 6. The glass ribbon manufacturing apparatus according to claim 5 , wherein the first roller of the another shape stabilization roller provided in the annealing region is arranged on the other surface side of the glass ribbon, which is opposite to the one surface side of the glass ribbon on which the first roller of the shape stabilization roller provided in the cooling region is arranged, and wherein the first roller of the auxiliary roller is arranged on the one surface side of the glass ribbon. 7. The glass ribbon manufacturing apparatus according to claim 5 , wherein an additional support roller of the plurality of support rollers is configured to nip both of the sides of the glass ribbon in the width direction, and is provided between the another shape stabilization roller and the auxiliary roller in the annealing region. 8. The glass ribbon manufacturing apparatus according to claim 2 , wherein an additional support roller of the plurality of support rollers is configured to nip both of the sides of the glass ribbon in the width direction, and is provided below the shape stabilization roller in the cooling region. 9. The glass ribbon manufacturing apparatus according to claim 1 , wherein the first roller is free of support portions facing a center portion of the glass ribbon located between the end portions of the glass ribbon, and the second roller is free of support portions facing the center portion of the glass ribbon located between the end portions of the glass ribbon. 10. The glass ribbon manufacturing apparatus according to claim 1 , wherein the support portions of the first roller are arranged such that a distance between the support portions of the first roller is greater than a width of each of the end portions of the glass ribbon in the width direction, and the support portions of the second roller are arranged such that a distance between the support portions of the second roller is greater than the width of each of the end portions of the glass ribbon in the width direction. 11. A method of manufacturing a glass ribbon, the method comprising the steps of: annealing a formed glass ribbon to remove an internal strain thereof; and cooling the glass ribbon being annealed to a vicinity of a room temperature, wherein a plurality of support rollers are configured to support both sides of the glass ribbon in a width direction during the annealing and the cooling and are provided along a direction of downward movement of the glass ribbon during the annealing and the cooling, wherein at least one of the plurality of the support rollers comprises a shape stabilization roller configured to stabilize a shape of the glass ribbon curved in the width direction, wherein the shape stabilization roller comprises: a first roller being arranged on one surface side of the glass ribbon and having a pair of supporting portions configured to support only end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction; and a second roller being arranged on another surface side of the glass ribbon and having a pair of supporting portions configured to support only the end portions of the glass ribbon at both of the sides of the glass ribbon in the width direction, and wherein an inner end portion of each of the pair of the support portions of the first roller in the width direction is arranged on an outer side, in the width direction, of an outer end portion of a corresponding one of the pair of the support portions of the second roller in the width direction, and wherein a distance between the pair of support portions of the first roller and the pair of support portions of the second roller of the shape stabilization roller in a thickness direction of the glass ribbon is positive.