Catalyst advanced warmup control device for spark ignition engine

The invention claimed is: 1. A rapid catalyst warmup control device for a spark ignition engine, which is configured to, when a catalytic converter provided in an exhaust passage is in an un-activated state, increase an intake air amount, as compared to when the catalytic converter is in an activated state under a same engine operation condition, and retard an ignition timing beyond a top dead center of a compression stroke, comprising: an ignition timing setting section configured to set the ignition timing in such a manner that a retard amount thereof from a top dead center of a compression stroke becomes larger as an external load causing a rotational resistance of the engine becomes lower; and an exhaust valve opening timing setting section configured to set a valve opening start timing of an exhaust valve in a subsequent expansion stroke according to combustion of an air-fuel mixture ignited at the ignition timing set by the ignition timing setting section in such a manner that when the external load is lower than a given reference load, the exhaust valve starts opening before an in-cylinder pressure reaches a peak, wherein the in-cylinder pressure is based on the exhaust valve being maintained in a valve-closed state. 2. The rapid catalyst warmup control device as defined in claim 1 , which comprises a fuel injection valve configured to inject fuel directly into a cylinder, and an injection timing setting section configured to set an injection timing of the fuel injection valve in such a manner that an air-fuel mixture in the cylinder becomes a rich air-fuel mixture having an increased fuel concentration around a spark plug at the ignition timing set by the ignition timing setting section. 3. The rapid catalyst warmup control device as defined in claim 1 , wherein the exhaust valve opening timing setting section is configured to set the valve opening start timing of the exhaust valve in such a manner that when the external load is higher than the reference load, the exhaust valve starts opening after the in-cylinder pressure reaches the peak. 4. The rapid catalyst warmup control device as defined in claim 1 , which comprises an external load reducing section configured to forcibly reduce the external load. 5. The rapid catalyst warmup control device as defined in claim 1 , wherein the exhaust valve is provided in a plural number per cylinder, and wherein the exhaust valve opening timing setting section is configured to set respective valve opening start timings of the plurality of exhaust valves in such a manner that the valve opening start timings become different from each other, and one of the exhaust valves having an earlier valve opening start timing starts opening before the in-cylinder pressure reaches the peak. 6. A rapid catalyst warmup control device for a spark ignition engine, which is configured to, when a catalytic converter provided in an exhaust passage is in an un-activated state, increase an intake air amount, as compared to when the catalytic converter is in an activated state under a same engine operation condition, and retard an ignition timing beyond a top dead center of a compression stroke, comprising: an ignition timing setting section configured to set the ignition timing in such a manner that a retard amount thereof from a top dead center of a compression stroke becomes larger as an external load causing a rotational resistance of the engine becomes lower; and an exhaust valve opening timing setting section configured to set a valve opening start timing of an exhaust valve in a subsequent expansion stroke according to combustion of an air-fuel mixture ignited at the ignition timing set by the ignition timing setting section in such a manner that when the external load is lower than a given reference load, the exhaust valve starts opening before a heat release rate or a heat release amount per unit crank angle reaches a peak. 7. The rapid catalyst warmup control device as defined in claim 6 , which comprises a fuel injection valve configured to inject fuel directly into a cylinder, and an injection timing setting section configured to set an injection timing of the fuel injection valve in such a manner that an air-fuel mixture in the cylinder becomes a rich air-fuel mixture having an increased fuel concentration around a spark plug at the ignition timing set by the ignition timing setting section. 8. The rapid catalyst warmup control device as defined in claim 6 , wherein the exhaust valve opening timing setting section is configured to set the valve opening start timing of the exhaust valve in such a manner that when the external load is higher than the reference load, the exhaust valve starts opening after the heat release rate reaches the peak. 9. The rapid catalyst warmup control device as defined in claim 6 , which comprises an external load reducing section configured to forcibly reduce the external load. 10. The rapid catalyst warmup control device as defined in claim 6 , wherein the exhaust valve is provided in a plural number per cylinder, and wherein the exhaust valve opening timing setting section is configured to set respective valve opening start timings of the plurality of exhaust valves in such a manner that the valve opening start timings become different from each other and one of the exhaust valves that has an earlier valve opening start timing starts opening before the heat release rate reaches the peak. 11. A rapid catalyst warm up control device for a spark ignition engine, which is configured to, when a catalytic converter provided in an exhaust passage is in an un-activated state, increase an intake air amount, as compared to when the catalytic converter is in an activated state under a same engine operation condition, and retard an ignition timing beyond a top dead center of a compression stroke, comprising: an ignition timing setting section configured to set the ignition timing in such a manner that a retard amount thereof from a top dead center of a compression stroke becomes larger as an external load causing a rotational resistance of the engine becomes lower; and an exhaust valve opening timing setting section configured to set a valve opening start timing of an exhaust valve in a subsequent expansion stroke according to combustion of an air-fuel mixture ignited at the ignition timing set by the ignition timing setting section in such a manner that when the external load is lower than a given reference load, the exhaust valve starts opening before an in-cylinder pressure reaches a peak, wherein the in-cylinder pressure is based on the exhaust valve being maintained in a valve-closed state, wherein the exhaust opening timing setting section is configured to set a valve opening timing of an exhaust valve in a subsequent expansion stroke according to combustion of an air-fuel mixture ignited at the ignition timing set by the ignition timing setting section in such a manner that when the external load is equal to the reference load, the exhaust valve starts opening approximately coincident with when an in-cylinder pressure reaches a peak, wherein the in-cylinder pressure is based on the exhaust valve being maintained in a valve-closed state.