Control device for an internal combustion engine

What is claimed is: 1. A control device for an internal combustion engine applied to an internal combustion engine and comprising a control part, said internal combustion engine comprises a fuel injection part which supplies fuel to an combustion chamber, an ignition part which ignites the fuel supplied to said combustion chamber, a crankshaft, and a rotational speed detector which detects a crank angle that is a rotational position of said crankshaft and detects an engine rotational speed that is a rotational speed of said crankshaft, and said control part can perform an automatic stop control in which a fuel supply by said fuel injection part is stopped and a rotation of said crankshaft is stopped when a predetermined automatic stop condition is satisfied, and can re-start said internal combustion engine when a predetermined re-start condition is satisfied, wherein: said control part comprises, a predicted crank angle calculation part which calculates a predicted crank angle that is a crank angle on the basis of an top dead center of a cylinder in an expansion stroke at a predicted ignition time that is a time point at which an ignition of fuel is predicted to take place if processing for performing an ignition start-up, in which fuel is supplied to a combustion chamber of said cylinder in an expansion stroke by said fuel injection part and said fuel supplied to said combustion chamber of said cylinder is ignited by said ignition part, was initiated at the present time, whenever a predetermined time period has passed, when said predetermined re-start condition is satisfied at or after a first time inversion time point that is a time point when a rotational direction of said crankshaft is inverted for the first time during execution of said automatic stop control, and an ignition start-up part which re-starts said internal combustion engine by said ignition start-up when said predicted crank angle is not larger than a predetermined upper limit angle, and does not initiate said ignition start-up when said predicted crank angle is larger than said upper limit angle. 2. The control device for an internal combustion engine, according to claim 1 , wherein: said predicted crank angle calculation part is configured to calculate said predicted crank angle by using, as said predicted ignition time, a time point when a predetermined ignition-required time period has passed since the present time. 3. The control device for an internal combustion engine, according to claim 2 , wherein: said predicted crank angle calculation part is configured to calculate said predicted crank angle by using, as said predicted ignition time, a time point when said predetermined ignition-required time period containing an ignition time period, which is a time period required from a time point when fuel was subjected to an ignition to a time point when the fuel was actually ignited if said processing for performing said ignition start-up was initiated at the present time. 4. The control device for an internal combustion engine, according to claim 2 , wherein: said predicted crank angle calculation part is configured to calculate said predicted crank angle by using, as said predicted ignition time, a time point when said predetermined ignition-required time period containing not only said ignition time period, but also a fuel-air mixture formation time period which is a time period required from a time point when fuel was supplied by said fuel injection part to a time point when a fuel-air mixture was formed if said processing for performing said ignition start-up was initiated at the present time. 5. The control device for an internal combustion engine, according to claim 2 , wherein: said predicted crank angle calculation part is configured to memorize a correspondence relation between a crank angle on the basis of an top dead center of a cylinder in an expansion stroke and said ignition-required time period in a case where said processing for performing said ignition start-up was initiated at said crank angle in said cylinder, and is configured to identify said ignition-required time period by applying, to said correspondence relation, a crank angle on the basis of the top dead center of said cylinder in an expansion stroke at the present time. 6. The control device for an internal combustion engine, according to claim 2 , wherein: said predicted crank angle calculation part is configured to calculate said predicted crank angle based on a crank angle on the basis of the top dead center of said cylinder in an expansion stroke at the present time, said ignition-required time period as a time length, and a predetermined angular velocity. 7. The control device for an internal combustion engine, according to claim 6 , wherein: said predicted crank angle calculation part is configured to calculate said predicted crank angle using said angular velocity which is determined based on an engine rotational speed at the present time.