Glass body manufacturing apparatus, glass body manufacturing method, soot conveying mechanism, and soot heating mechanism

The invention claimed is: 1. A glass body manufacturing apparatus for manufacturing a glass body by dehydrating and transparently vitrifying a soot having a porous portion, the glass body manufacturing apparatus comprising: a first heating furnace including a furnace core tube accommodating the soot, and a first heater, the first heating furnace supplying a dehydration gas into the furnace core tube and heating the soot at a first treatment temperature, which is lower than a softening point of the porous portion, by the first heater; a second heating furnace including a structural body configured to accommodate the soot and a second heater, the second heating furnace heating the soot at a second treatment temperature, which is equal to or higher than the softening point, by the second heater; and a conveyance container connectable to each of the first heating furnace and the second heating furnace while keeping airtightness with respect to an outside atmosphere, the conveyance container being configured to accommodate and hold the soot, and convey the soot between the first heating furnace and the second heating furnace, wherein each of the first heating furnace, the second heating furnace, and the conveyance container comprises a respective shut-off mechanism which keeps airtightness for each of the first heating furnace, the second heating furnace, and the conveyance container with respect to the outside atmosphere, and the conveyance container is configured to move an operating mechanism with the soot into at least one of the first heating furnace and the second heating furnace. 2. The glass body manufacturing apparatus according to claim 1 , wherein the structural body is positioned in a furnace body, and is made of a carbon material or a ceramic material. 3. The glass body manufacturing apparatus according to claim 1 , wherein the structural body is a furnace core tube. 4. A glass body manufacturing method comprising: in a first heating furnace, accommodating a soot having a porous portion in a furnace core tube made of glass, supplying a dehydration gas into the furnace core tube, and heating the soot at a first treatment temperature, which is lower than a softening point of the porous portion; connecting a conveyance container and the first heating furnace together while keeping airtightness with respect to an outside atmosphere, accommodating and holding the soot in the conveyance container, and conveying the soot to the second heating furnace; and connecting the conveyance container and the second heating furnace together while keeping airtightness with respect to the outside atmosphere, accommodating the soot in a structural body of the second heating furnace, disconnecting the conveyance container from the second heating furnace while keeping airtightness with respect to the outside atmosphere, and heating the soot at a second treatment temperature, which is equal to or higher than the softening point. 5. A soot conveying mechanism to convey a soot between a first heating furnace and a second heating furnace, the soot conveying mechanism comprising: a conveyance container accommodating the soot; and a moving mechanism moving the conveyance container to a position above the first heating furnace and to a position above the second heating furnace, wherein the conveyance container includes: an operating mechanism capable of lifting and lowering the soot an airtight mechanism capable of making an inside of the conveyance container airtight, and a connection unit configured to be connectable to the first heating furnace or the second heating furnace, the conveyance container is configured to move the operating mechanism into the first heating furnace with the soot when the soot is heated by the first heating furnace, and the conveyance container is configured to move the operating mechanism into the second heating furnace with the soot when the soot is heated by the second heating furnace. 6. The soot conveying mechanism according to claim 5 , further comprising a rotating mechanism erecting the soot such that opposite ends of a glass rod in the soot are positioned in top and bottom. 7. A soot heating mechanism to convert a soot having a porous portion into a fiber preform, the soot heating mechanism comprising: a first heating furnace including a furnace core tube accommodating the soot, a first heater, a first gas supply unit supplying a dehydration gas into the furnace core tube, and a first gas discharge unit discharging the dehydration gas, the first heating furnace heating the soot at a first treatment temperature, which is lower than a softening point of the porous portion, by the first heater under an atmosphere of the dehydration gas; and a second heating furnace including a structural body configured to accommodate the soot, a second heater, a second gas supply unit supplying an inert gas into the structural body, and a second gas discharge unit discharging the inert gas, the second heating furnace heating the soot at a second treatment temperature, which is equal to or higher than the softening point, by the second heater under an atmosphere of the inert gas, wherein each of the first heating furnace and the second heating furnace comprises a shut-off mechanism which keeps airtightness of the respective heating furnace with respect to an outside atmosphere.