Continuous heating furnace

The invention claimed is: 1. A continuous heating furnace comprising: a furnace main body; a conveyance unit configured to convey a baking object in the furnace main body; at least one closed type gas heater having an introduction hole into which a fuel gas flows, a combustion chamber in which the fuel gas introduced from the introduction hole is combusted, a guide section configured to guide an exhaust gas generated by combustion in the combustion chamber, a first radiation surface extending in a direction perpendicular to a conveyance direction of the baking object and parallel to a horizontal direction and configured to be heated by the combustion in the combustion chamber and heat of the exhaust gas flowing through the guide section to transfer radiant heat to the baking object, an exhaust hole through which the exhaust gas that heated the first radiation surface is discharged, the at least one closed type gas heater being disposed in the furnace main body, wherein all of the exhaust gas generated by combustion in the combustion chamber is discharged to an area outside of the at least one closed type gas heater from the exhaust hole without coming in direct contact with the baking object; and at least one exhaust heat transfer unit which is juxtaposed with the at least one closed type gas heater in the conveyance direction of the baking object, is disposed in the furnace main body, communicates with the exhaust hole so that the exhaust gas discharged from the exhaust hole flows through the at least one exhaust heat transfer unit, and has a second radiation surface configured to be heated by the exhaust gas discharged from the exhaust hole to transfer the radiant heat to the baking object, and a heat transfer acceleration unit provided at one end portion, in the direction perpendicular to the conveyance direction of the baking object and parallel to the horizontal direction, of the at least one exhaust heat transfer unit and configured to accelerate heat transfer from the exhaust gas discharged from the exhaust hole to one end portion of the second radiation surface, wherein all of the exhaust gas discharged from the exhaust hole passes through the at least one exhaust heat transfer unit and is discharged to an area outside of the at least one exhaust heat transfer unit and the continuous heating furnace without coming in direct contact with the baking object. 2. The continuous heating furnace according to claim 1 , wherein the heat transfer acceleration unit includes an introduction path which is connected to the piping section and configured to introduce the exhaust gas discharged from the piping section into the at least one exhaust heat transfer unit, and is perpendicular to or inclined with respect to the second radiation surface such that the exhaust gas from the introduction path collides with a back side of the second radiation surface. 3. The continuous heating furnace according to claim 1 , wherein the heat transfer acceleration unit includes a turbulence section provided on a back surface of the second radiation surface and configured to disturb the flow of the exhaust gas flowing through the at least one exhaust heat transfer unit. 4. The continuous heating furnace according to claim 1 , wherein: the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units; and the at least one closed type gas heater is interposed between the plurality of exhaust heat transfer units, and flow directions of the exhaust gases flowing through the plurality of exhaust heat transfer units are opposite to each other. 5. The continuous heating furnace according to claim 1 , wherein: the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units; and flow directions of the exhaust gases flowing through adjacent exhaust heat transfer units of the plurality of exhaust heat transfer units are opposite to each other. 6. The continuous heating furnace according to claim 1 , wherein: the at least one closed type gas heater comprises a plurality of closed type gas heaters, the plurality of closed type gas heaters constituting a plurality of closed type gas heater systems; and the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units that are provided for each of the plurality of closed type gas heater systems. 7. The continuous heating furnace according to claim 2 , wherein: the at least one closed type gas heater comprises a plurality of closed type gas heaters, the plurality of closed type gas heaters constituting a plurality of closed type gas heater systems; and the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units that are provided for each of the plurality of closed type gas heater systems. 8. The continuous heating furnace according to claim 3 , wherein: the at least one closed type gas heater comprises a plurality of closed type gas heaters, the plurality of closed type gas heaters constituting a plurality of closed type gas heater systems; and the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units that are provided for each of the plurality of closed type gas heater systems. 9. The continuous heating furnace according to claim 4 , wherein: the at least one closed type gas heater comprises a plurality of closed type gas heaters, the plurality of closed type gas heaters constituting a plurality of closed type gas heater systems; and the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units that are provided for each of the plurality of closed type gas heater systems. 10. The continuous heating furnace according to claim 5 , wherein: the at least one closed type gas heater comprises a plurality of closed type gas heaters, the plurality of closed type gas heaters constituting a plurality of closed type gas heater systems; and the at least one exhaust heat transfer unit comprises a plurality of exhaust heat transfer units that are provided for each of the plurality of closed type gas heater systems.