Temperature estimation module, control apparatus for internal combustion engine, and method for operating temperature estimation module

The invention claimed is: 1. A temperature estimation module applied to a control apparatus for an internal combustion engine, wherein the internal combustion engine includes an exhaust purifying device configured to purify an exhaust gas discharged from a plurality of cylinders and a plurality of fuel injection valves respectively arranged at the plurality of cylinders, and the control apparatus is configured to execute a dither control process that operates the fuel injection valves so that at least one of the plurality of cylinders is a lean combustion cylinder in which an air-fuel ratio is leaner than a theoretical air-fuel ratio and so that at least a further one of the plurality of cylinders is a rich combustion cylinder in which an air-fuel ratio is richer than the theoretical air-fuel ratio, wherein the temperature estimation module is configured to execute a virtual temperature estimation process that estimates a virtual temperature, which is a temperature of the exhaust purifying device under an assumption that the dither control process is not executed, based on an operation point of the internal combustion engine during execution of the dither control process, and an actual temperature estimation process that estimates an actual temperature of the exhaust purifying device based on a difference between the air-fuel ratio of the rich combustion cylinder and the air-fuel ratio of the lean combustion cylinder and based on the operation point of the internal combustion engine during execution of the dither control process. 2. A control apparatus for an internal combustion engine, the control apparatus comprising the temperature estimation module according to claim 1 , wherein the control apparatus is configured to execute a first stop process that stops the dither control process in accordance with a result of a high-low comparison between the virtual temperature and a specified temperature. 3. The control apparatus for an internal combustion engine according to claim 2 , wherein the exhaust purifying device includes a catalyst, the control apparatus is configured to execute a predetermined diagnosis process under a condition that the virtual temperature is determined to be greater than or equal to the specified temperature, and the first stop process includes a process that stops the dither control process when the predetermined diagnosis process is executed. 4. The control apparatus for an internal combustion engine according to claim 2 , wherein the control apparatus is configured to execute the dither control process for a regeneration process of the exhaust purifying device under a condition that the temperature of the exhaust purifying device is greater than or equal to the specified temperature, and the first stop process includes a process that stops the dither control process when the virtual temperature is less than the specified temperature. 5. The control apparatus for an internal combustion engine according to claim 4 , wherein the actual temperature estimation process includes a process that estimates a normal actual temperature, which is an actual temperature of the exhaust purifying device in a normal state, based on a difference between the air-fuel ratio of the rich combustion cylinder and the air-fuel ratio of the lean combustion cylinder and based on the operation point of the internal combustion engine, and a process that, when a present estimate of the actual temperature is less than the normal actual temperature, has the estimate of the actual temperature converge on the normal actual temperature with a lapse of time. 6. The control apparatus for an internal combustion engine according to claim 2 , wherein the control apparatus is configured to execute a second stop process that stops the dither control process when the actual temperature is greater than or equal to a predetermined temperature that is greater than the specified temperature. 7. The control apparatus for an internal combustion engine according to claim 2 , wherein the internal combustion engine is configured to be mounted on a vehicle, the actual temperature estimation process is a process that estimates the actual temperature to be lower when speed of the vehicle is high than when speed of the vehicle is low, and the virtual temperature estimation process is a process that estimates the virtual temperature to be lower when speed of the vehicle is high than when speed of the vehicle is low. 8. A method for operating a temperature estimation module applied to a control apparatus for an internal combustion engine, wherein the internal combustion engine includes an exhaust purifying device configured to purify an exhaust gas discharged from a plurality of cylinders and a plurality of fuel injection valves respectively arranged at the plurality of cylinders, and the control apparatus is configured to execute a dither control process that operates the fuel injection valves so that at least one of the plurality of cylinders is a lean combustion cylinder in which an air-fuel ratio is leaner than a theoretical air-fuel ratio and so that at least a further one of the plurality of cylinders is a rich combustion cylinder in which an air-fuel ratio is richer than the theoretical air-fuel ratio, the method comprising: estimating a virtual temperature, which is a temperature of the exhaust purifying device under an assumption that the dither control process is not executed, based on an operation point of the internal combustion engine during execution of the dither control process; and estimating an actual temperature of the exhaust purifying device based on a difference between the air-fuel ratio of the rich combustion cylinder and the air-fuel ratio of the lean combustion cylinder and based on the operation point of the internal combustion engine during execution of the dither control process.