Continuous heating furnace and operating method thereof

What is claimed is: 1. A continuous heating furnace comprising an inlet, a heating zone, a cooling zone and an outlet in this order, for carrying out a heat treatment while conveying at least one workpiece from the inlet to the outlet, wherein the cooling zone is configured such that an ambient gas for direct cooling of the workpiece can flow into the cooling zone from the outlet; the cooling zone comprises a plurality of indirect coolers arranged in parallel in the conveying direction of the workpiece, each of the indirect coolers having at least one regulator for independently adjusting a cooling power; and the cooling zone comprises one or more residual heat outlets for discharging a residual heat gas in the cooling zone. 2. The continuous heating furnace according to claim 1 , wherein the cooling zone comprises one or more introducing ports for a cooling gas fed via one or more fans in order to directly cool the workpiece, the introducing ports being disposed between the outlet and the indirect cooler located at a position closest to the outlet among the indirect coolers. 3. The continuous heating furnace according to claim 1 , wherein the cooling zone comprises no introducing port for a cooling gas fed via one or more fans in order to directly cool the workpiece at a position closer to the inlet than the indirect cooler located at a position closest to the outlet among the indirect coolers. 4. The continuous heating furnace according to claim 1 , wherein each of the indirect coolers comprises at least one regulator capable of adjusting a flow rate of a refrigerant flowing through each of the indirect coolers. 5. The continuous heating furnace according to claim 1 , comprising: a weight sensor for measuring a weight of the workpiece, and an automatic controller for operating the regulator based on the weight of the workpiece measured by the weight sensor to adjust the cooling power of the indirect cooler. 6. The continuous heating furnace according to claim 1 , comprising: at least one thermometer for measuring an in-furnace temperature of the cooling zone, and an automatic controller for operating the regulator based on a value of the thermometer to adjust the cooling power of the indirect cooler. 7. The continuous heating furnace according to claim 1 , wherein the continuous heating furnace is a continuous firing furnace. 8. A method for operating the continuous heating furnace according to claim 1 , the method comprising adjusting the cooling power of each of the indirect coolers based on either one or both of a weight of the workpiece and an in-furnace temperature of the cooling zone, without substantially changing a flow rate of the ambient gas flowing from the outlet into the cooling zone or a flow rate of the residual heat gas discharged from the one or more residual heat outlets. 9. The method according to claim 8 , wherein the cooling zone comprises one or more introducing ports for a cooling gas fed via one or more fans in order to directly cool the workpiece, the introducing ports being disposed between the outlet and the indirect cooler located at a position closest to the outlet among the indirect coolers; and wherein the method comprises adjusting the cooling power of each of the indirect coolers based on either one or both of a weight of the workpiece and an in-furnace temperature of the cooling zone, without substantially changing a flow rate of the cooling gas fed to the cooling zone. 10. The method according to claim 8 , wherein the cooling power of each of the indirect coolers is adjusted by at least one regulator capable of adjusting a flow rate of a refrigerant flowing through each of the indirect coolers. 11. The method according to claim 8 , wherein the workpiece after passing through the heating zone is made of ceramics, and the cooling power of each of the indirect coolers is adjusted such that a surface temperature of the workpiece is decreased from a temperature more than 600° C. to a temperature less than 600° C., during a process from when the workpiece starts passing through the indirect cooler located at a position closest to the inlet until when the workpiece finishes passing through the indirect cooler located at a position closest to the outlet, among the indirect coolers. 12. The method according to claim 11 , wherein the cooling power of each of the indirect coolers is adjusted such that the surface temperature of the workpiece is decreased from a temperature of 800° C. or more to a temperature less than 500° C., during a process from when the workpiece starts passing through the indirect cooler located at the position closest to the inlet until when the workpiece finishes passing through the indirect cooler located at the position closest to the outlet, among the indirect coolers. 13. The method according to claim 8 , wherein a variation in a furnace pressure when the workpiece passes through the cooling zone is 1.5 Pa or less.