Control device for internal combustion engine

What is claimed is: 1. An internal combustion engine comprising: an exhaust gas system; an air intake system; an external EGR system for recirculating exhaust gas from the exhaust gas system to the air intake system; and a control device; wherein the control device further comprises: an EGR map the defines a relationship between an operating range defined by engine speed and engine load and a target value of external EGR rate, and has a predetermined partitioned range in which the target value is set to a highest value; and an operating angle map that defines a relationship between the operating range and an operating angle of an intake cam for driving an intake valve of the engine; wherein the operating angle is set to have a large operating angle being selected in a first region including a region corresponding to the predetermined partitioned range to close the intake valve in a first crank angle section; and a small operating angle being selected in a second region in which the engine load is higher than that of the first region to close the intake valve in a second crank angle section that is located nearer to a bottom dead center side than the first crank angle section; wherein the control device includes executable instruction stored in a microprocessor to: select the operating angle in accordance with the operating angle map when the engine operating state stays in a partitioned range having the equal target value in the EGR map; and change a boundary between the first region and the second region in a direction of increasing the engine load, and then select the operating angle in accordance with the operating angle map when the engine operating state is transferred from a partitioned range with the high target value to a partitioned range with the low target value in the EGR map and in the direction of increasing the engine load. 2. The internal combustion engine according to claim 1 , wherein the control device further includes executable instructions stored in the microprocessor to increase a degree of a change of the boundary as a change rate of an accelerator opening degree of the engine becomes larger when changing the boundary in the direction of increasing the engine load. 3. The internal combustion engine according to claim 1 , wherein the control device further includes executable instructions stored in the microprocessor to determine a time interval from a change point of the target value set in accordance with the EGR map to an increase starting point of an actual external EGR rate and increase the degree of the change of the boundary as the time interval is larger when changing the boundary in the direction of increasing the engine load. 4. The internal combustion engine according to claim 1 , further comprising a turbocharger including a compressor and a turbine; wherein the external EGR system recirculates the exhaust gas from a downstream side of the turbine to an upstream side of the compressor.