Optical fiber producing method and apparatus and optical fiber

The invention claimed is: 1. An optical fiber producing method, using an apparatus comprising a susceptor into which an optical fiber preform is inserted and a heater disposed outside the susceptor to heat the susceptor from the outside, for producing an optical fiber by drawing a glass fiber while the optical fiber preform is heated and melted and by drawing out the fiber through the outlet at the lower section of the susceptor to the outside, wherein a gas containing 50% or more of argon or nitrogen is used as a gas to be supplied into the susceptor, and a protective pipe with a length of Da (mm) is provided under the susceptor, the protective pipe having a heat insulating region enclosed with a heat insulator with a length of Db (mm) at the upper section thereof and a non-heat insulating region not enclosed with any heat insulators at the lower section thereof, and wherein, when the drawing velocity of the glass fiber is V (m/min), the lengths of Da and Db are set to satisfy “V/Da≦1.2 and V/Db≦2.3” so that the temperature of the glass fiber at the outlet of the protective pipe becomes 1700° C. or less and so that the outer diameter of the glass fiber at the outlet of the protective pipe is within a range of the target outer diameter of the glass fiber+6 μm or less. 2. An optical fiber producing method, using an apparatus comprising a susceptor into which an optical fiber preform is inserted and a heater disposed outside the susceptor to heat the susceptor from the outside, for producing an optical fiber by drawing a glass fiber while the optical fiber preform is heated and melted and by drawing out the fiber through the outlet at the lower section of the susceptor to the outside, wherein a gas containing 85% or more of argon or nitrogen is used as a gas to be supplied into the susceptor, and a protective pipe with a length of Da (mm) is provided under the susceptor, the protective pipe having a heat insulating region enclosed with a heat insulator with a length of Db (mm) at the upper section thereof and a non-heat insulating region not enclosed with any heat insulators at the lower section thereof, and wherein, when the drawing velocity of the glass fiber is V (m/min), the lengths of Da and Db are set to satisfy “V/Da≦1.2 and V/Db≦7.7” so that the temperature of the glass fiber at the outlet of the protective pipe becomes 1700° C. or less and so that the outer diameter of the glass fiber at the outlet of the protective pipe is within a range of the target outer diameter of the glass fiber+6 μm or less. 3. The optical fiber producing method according to claim 1 , wherein “V/Da≦1.0” is satisfied, the temperature of the glass fiber at the outlet of the protective pipe is 1650° C. or less, and the outer diameter of the glass fiber at the outlet of the protective pipe is within a range of the target outer diameter of the glass fiber+1.6 μm or less. 4. The optical fiber producing method according to claim 1 , wherein the value obtained by dividing the Grashof number Gr inside the protective pipe by the square of the Reynolds number Re is 1 or less.