Control apparatus for internal combustion engine equipped with turbocharger

The invention claimed is: 1. A control apparatus applied to an internal combustion engine, the internal combustion engine including: a turbocharger having a turbine which is provided in an exhaust passage and a compressor which is provided in an intake passage; an exhaust gas purifying device which is arranged to purify exhaust gas at a section downstream of the turbine in the exhaust passage; and an EGR passage which connects a section downstream of the exhaust gas purifying device in the exhaust passage and a section upstream of the compressor in the intake passage, the compressor including: a compressor wheel; a flow passage being provided over the circumference of the compressor wheel and radially outward therefrom; and a movable vane mechanism, the movable vane mechanism including: plural movable vanes being provided in the flow passage in such a way that the plural movable vanes are arranged in a circumference direction of the compressor wheel at regular intervals; and shaft portions being provided to the movable vanes respectively, and the movable vane mechanism varying sizes of spaces between the movable vanes by rotating the plural movable vanes around the shaft portions by using an actuator, wherein the control apparatus is programmed so as to include control programming instructions that are executed to control an operation of the movable vane mechanism so that the sizes of the spaces are increased when the exhaust gas is led to the compressor via the EGR passage as compared with a case when the exhaust gas is not led to the compressor while the internal combustion engine is operated. 2. The control apparatus according to claim 1 , wherein the control programming instructions are further executed by the control apparatus to control the operation of the movable vane mechanism so that the plural movable vanes are rotated to a position which makes the sizes of the spaces largest within range of positions where a surge of the compressor is avoided, when a temperature of the exhaust gas purifying device is equal to or higher than a predetermined upper limit temperature and the exhaust gas is led to the compressor via the EGR passage. 3. The control apparatus according to claim 1 , wherein a performance of the exhaust gas purifying device is recovered by an elevating temperature operation, the control apparatus is further programmed so as to include programming instructions that are executed to elevate the temperature of the exhaust gas purifying device up to a target temperature at a moment when the elevating temperature operation is performed, and the control programming instructions are further executed by the control apparatus to control the operation of the movable vane mechanism so that the plural movable vanes are rotated to a position which makes the sizes of the spaces largest within range of positions where a surge of the compressor is avoided, when the elevating temperature operation is performed by the control apparatus executing the control programming instructions and the exhaust gas is led to the compressor via the EGR passage. 4. A control apparatus applied to an internal combustion engine, the internal combustion engine including: a turbocharger having a turbine which is provided in an exhaust passage and a compressor which is provided in an intake passage; an exhaust gas purifying device which is arranged to purify exhaust gas at a section downstream of the turbine in the exhaust passage; and an EGR passage which connects a section downstream of the exhaust gas purifying device in the exhaust passage and a section upstream of the compressor in the intake passage, the compressor including: a compressor wheel; a flow passage being provided over the circumference of the compressor wheel and radially outward therefrom; and a movable vane mechanism, the movable vane mechanism including at least one movable vane which is provided so as to be movable between a projected position where the movable vane is projected into the flow passage and a housed position where the movable vane is housed within a wall surface forming the flow passage by using an actuator, wherein the control apparatus is programmed so as to include control programming instructions that are executed to control the operation of the movable vane mechanism so that the movable vane is moved to the housed position when the exhaust gas is led to the compressor via the EGR passage. 5. The control apparatus according to claim 4 , wherein the control programming instructions are further executed by the control apparatus to control the operation of the movable vane mechanism so that the movable vane is moved to the housed position when a temperature of the exhaust gas purifying device is equal to or higher than a predetermined upper limit temperature and the exhaust gas is led to the compressor via the EGR passage. 6. The control apparatus according to claim 4 , wherein a performance of the exhaust gas purifying device is recovered by an elevating temperature operation, the control apparatus is further programmed so as to include programming instructions that are executed to elevate the temperature of the exhaust gas purifying device up to a target temperature at a moment when the elevating temperature operation is performed, and the control programming instructions are further executed by the control apparatus to control the operation of the movable vane mechanism so that the movable vane is moved to the housed position when the elevating temperature operation is performed by the control apparatus executing the programming instructions and the exhaust gas is led to the compressor via the EGR passage.