Apparatus for manufacturing porous glass soot body

What is claimed is: 1. An apparatus for manufacturing a porous glass soot body to be formed into an optical fiber preform, the apparatus comprising: a reaction chamber; a burner to form the porous glass soot body by depositing glass particles onto a seed rod hung inside the reaction chamber; and a sealing structure including a heat-blocking element and a sealing cover, wherein the heat-blocking element comprises a quartz wool material and fills a gap between the burner and an opening for inserting the burner into the reaction chamber, to block heat between the inside and outside of the reaction chamber, and the sealing cover covers the opening and adheres to an outside surface of the reaction chamber, to provide airtight sealing of the opening. 2. The apparatus for manufacturing a porous glass soot body according to claim 1 , wherein the heat-blocking element deforms in accordance with displacement of the burner in the opening. 3. The apparatus for manufacturing a porous glass soot body according to claim 1 , wherein the quartz wool material contains 1 ppm or less of transition metal impurities. 4. The apparatus for manufacturing a porous glass soot body according to claim 1 , wherein the heat-blocking element has a thickness of 5 mm or more. 5. The apparatus for manufacturing a porous glass soot body according to claim 1 , wherein the burner comprises: a core-corresponding portion depositing burner to form a core-corresponding portion corresponding to an optical fiber core; and a clad-corresponding portion depositing burner to form at least a part of a clad-corresponding portion corresponding to an optical fiber clad. 6. The apparatus for manufacturing a porous glass soot body according to claim 5 , wherein the clad-corresponding portion depositing burner comprises: a core-corresponding portion-side clad-corresponding portion depositing burner to form a part of the clad-corresponding portion by depositing glass particles onto the core-corresponding portion formed by using the core-corresponding portion depositing burner; and a surface-side clad-corresponding portion depositing burner to form another part of the clad-corresponding portion by depositing glass particles onto the part of the clad-corresponding portion formed by using the core-corresponding portion-side clad-corresponding portion depositing burner. 7. The apparatus for manufacturing a porous glass soot body according to claim 6 , wherein the surface-side clad-corresponding portion depositing burner is set at a predetermined tilt to form a steady portion of the clad-corresponding portion having a steady diameter, and is set downward relative to the predetermined tilt to start to form the clad-corresponding portion and is changed to the predetermined tilt before starting to form the steady portion. 8. The apparatus for manufacturing a porous glass soot body according to claim 7 , wherein the surface-side clad-corresponding portion depositing burner is set at a tilt forming an angle of 10 degrees downward relative to a horizontal plane to start to form the clad-corresponding portion, and is set at a tilt forming an angle of 5 degrees upward relative to the horizontal plane to form the steady portion of the clad-corresponding portion. 9. The apparatus for manufacturing a porous glass soot body according to claim 7 , further comprising an electric goniometer stage for changing the tilt of the surface-side clad-corresponding portion depositing burner. 10. The apparatus for manufacturing a porous glass soot body according to claim 1 , further comprising a goniometer disposed adjacent the rear of the burner, outside the reaction chamber, such that the heat-blocking element blocks heat from the reaction chamber reaching the goniometer.