Tunnel kiln for firing ceramic porous bodies

The invention claimed is: 1. A tunnel kiln for firing ceramic porous bodies, the kiln comprising a preheating zone, a firing zone, and a cooling zone and driving a carriage loaded with ceramic porous bodies through the tunnel kiln, wherein the preheating zone is set to a low-oxygen atmosphere by providing an exhaust gas return line that supplies, into the preheating zone, low-oxygen-concentration exhaust gas discharged from a heat storage regenerative burner employed as means for heating the firing zone, wherein the heat storage regenerative burner alternates between combustion and exhaust of gas from the firing zone such that heat from said gas is stored in a heat reservoir when exhausting said gas, and wherein the preheating zone has an oxygen concentration of 8% or less. 2. The tunnel kiln according to claim 1 , wherein a spare chamber is formed at a stage preceding the preheating zone so that the low-oxygen-concentration exhaust gas discharged from the heat storage regenerative burner may be supplied also into the spare chamber. 3. The tunnel kiln according to claim 1 , wherein the exhaust gas return line is provided with a combustion device that reduces an oxygen concentration by consuming oxygen contained in the exhaust gas. 4. The tunnel kiln according to claim 1 , comprising an exhaust line which suctions in-kiln gas from the preheating zone and meets the exhaust gas return line, wherein the exhaust line is provided with a combustion device that consumes oxygen contained in the in-kiln gas in the preheating zone to lower the oxygen concentration. 5. The tunnel kiln according to claim 3 , comprising a path which suctions the in-kiln gas from the preheating zone and meets a stage preceding the combustion device. 6. The tunnel kiln according to claim 3 , wherein the combustion device is a catalytic combustion device. 7. The tunnel kiln according to claim 1 , comprising an afterburner fitted to a path that suctions the in-kiln gas from the preheating zone and discharges it in order to completely burn organic binder gas generating from the ceramic porous bodies and, at the same time, remove nitrogen oxide contained in the exhaust gas supplied from the exhaust gas return line. 8. The tunnel kiln according to claim 2 , wherein the exhaust gas return line is provided with a combustion device that reduces an oxygen concentration by consuming oxygen contained in the exhaust gas. 9. The tunnel kiln according to claim 2 , comprising an exhaust line which suctions in-kiln gas from the preheating zone and meets the exhaust gas return line, wherein the exhaust line is provided with a combustion device that consumes oxygen contained in the in-kiln gas in the preheating zone to lower the oxygen concentration. 10. The tunnel kiln according to claim 4 , wherein the combustion device is a catalytic combustion device. 11. The tunnel kiln according to claim 1 , wherein the preheating zone has an oxygen concentration of 5% or less. 12. The tunnel kiln according to claim 1 , wherein the exhaust gas discharged from the heat storage regenerative burner passes through a heat exchanger fitted to the exhaust gas return line before being supplied into the preheating zone.