Ultrafine fiber production method and production device

The invention claimed is: 1. An ultrafine fiber production device comprising: a first heating unit that melts a thermoplastic resin; a nozzle unit that discharges the thermoplastic resin melted by the first heating unit; a hot air heating unit that produces high-temperature gas; a hot air blowing unit that performs fiber forming by extending the melted thermoplastic resin after blowing the high-temperature gas produced by the hot air heating unit to the melted thermoplastic resin discharged by the nozzle unit; a second heating unit that has a through-hole which allows the thermoplastic resin subjected to fiber forming by the hot air blowing unit to pass through for heating, and that further fines the thermoplastic resin subjected to fiber forming by heating the thermoplastic resin subjected to fiber forming when the thermoplastic resin subjected to fiber forming passes the through-hole; and a fiber collecting unit that collects the thermoplastic resin in a fibrous form which is fined by the second heating unit, wherein a spinning direction in which the thermoplastic resin moves is a direction perpendicular to a vertical direction, wherein the hot air blowing unit has a hot air blowing hole which ejects the high-temperature gas, and wherein in the vertical direction, a center of the through-hole of the second heating unit is lower than the hot air blowing hole of the hot air blowing unit. 2. The ultrafine fiber production device of claim 1 , wherein the second heating unit is disposed at a position which is farther than a position 20 mm away from the nozzle unit and the hot air blowing unit and closer than a position 100 mm away from the nozzle unit and the hot air blowing unit. 3. The ultrafine fiber production device of claim 2 , wherein an inner diameter of the second heating unit increases toward the fiber collecting unit. 4. The ultrafine fiber production device of claim 3 , wherein a cutout portion is disposed in at least a portion of a lower portion of the second heating unit. 5. The ultrafine fiber production device of claim 1 , wherein a heating temperature in the second heating unit is set to be higher than a heating temperature in the hot air heating unit, and the heating temperature in the hot air heating unit is set to be higher than a heating temperature in the first heating unit. 6. The ultrafine fiber production device of claim 5 , wherein a plurality of the nozzle units, a plurality of the hot air blowing units, and a plurality of the second heating units are arranged so as to configure multiplex nozzle, and the multiplex nozzle is connected to the first heating unit. 7. The ultrafine fiber production device of claim 6 , wherein a plurality of fibers formed of different resins or formed to have different fiber diameters are combined with or stacked on each other by the multiplex nozzle. 8. An ultrafine fiber production method comprising: a step of melting a thermoplastic resin; a step of discharging the melted thermoplastic resin from a nozzle unit along a horizontal direction, and performing fiber forming by extending the melted thermoplastic resin after blowing high-temperature gas from a hot air blowing hole along a spinning direction to the melted thermoplastic resin discharged by the nozzle unit; a step of further fining the thermoplastic resin by heating the thermoplastic resin subjected to fiber forming by passing through a through-hole inside a cylindrical heater; and a step of collecting the thermoplastic resin fined fibrously, wherein a spinning direction in which the thermoplastic resin moves is a direction perpendicular to a vertical direction, and wherein a center of the through-hole of the cylindrical heater is lower than the hot air blowing hole in the vertical direction. 9. The ultrafine fiber production device of claim 1 , wherein a vertical direction between a center of the hot air blowing hole and a center of the through-hole is in a range from 1 mm to 10 mm. 10. The ultrafine fiber production device of claim 1 , wherein the second heating unit is a cylindrical heater. 11. The ultrafine fiber production device of claim 1 , wherein the high-temperature gas is blown along a horizontal direction from the hot air blowing hole.