Refrigeration device for container

The invention claimed is: 1. A container refrigeration apparatus installed in a container which houses respiring plants, the container refrigeration apparatus comprising: a refrigerant circuit in which a compressor, a condenser, an expansion mechanism, and an evaporator are connected together to perform a refrigeration cycle; a casing which is provided at an open end of the container, and forms an internal storage space housing the evaporator and communicating with the interior of the container; and an interior fan which is provided in the internal storage space, and circulates air between the interior of the container and the internal storage space, wherein the container refrigeration apparatus further comprises an inside air control system which controls the composition of the air in the container, the inside air control system including: a gas supply device which supplies nitrogen-enriched air having a higher nitrogen concentration than outside air to the internal storage space; an intake passage which allows a first space on the suction side of the interior fan in the internal storage space to communicate with the exterior of the container so that the outside air is guided into the first space; and an exhaust passage which allows a second space on the blowout side of the interior fan in the internal storage space to communicate with the exterior of the container so that the air in the second space is guided to the exterior of the container, and a plate member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, and the exhaust passage has an inlet at a location where the flow of the air blown from the interior fan is blocked by the plate member. 2. The container refrigeration apparatus of claim 1 , wherein the interior fan includes a rotary vane which is driven to rotate about a rotation axis, and a fan housing surrounding the rotary vane, and the plate member is comprised of the fan housing. 3. The container refrigeration apparatus of claim 2 , wherein the interior fan is an axial fan. 4. The container refrigeration apparatus of claim 2 , wherein an inspection door which is openable and closable is attached to the casing on the side of the interior fan, and the exhaust passage is formed through the inspection door. 5. The container refrigeration apparatus of claim 4 , wherein the inspection door faces both of the first and second spaces, and the suction passage is formed through the inspection door. 6. The container refrigeration apparatus of claim 1 , wherein the gas supply device includes a supply passage which supplies the nitrogen-enriched air to the second space. 7. The container refrigeration apparatus of claim 1 , wherein the gas supply device includes a supply passage which supplies the nitrogen-enriched air to the first space. 8. The container refrigeration apparatus of claim 1 , further comprising: an oxygen sensor which measures an oxygen concentration of the air in the container; a carbon dioxide sensor which measures a carbon dioxide concentration of the air in the container; an air passage which allows the first and second spaces to communicate with each other so that the air is guided from the second space to the first space while the interior fan is rotating, and which is connected to the oxygen sensor and the carbon dioxide sensor to measure the oxygen concentration and the carbon dioxide concentration of the air; and a blocking member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, wherein the air passage has an inlet at a location where the flow of the air blown from the interior fan is blocked by the blocking member. 9. The container refrigeration apparatus of claim 3 , wherein an inspection door which is openable and closable is attached to the casing on the side of the interior fan, and the exhaust passage is formed through the inspection door. 10. The container refrigeration apparatus of claim 9 , wherein the inspection door faces both of the first and second spaces and, and the suction passage is formed through the inspection door. 11. The container refrigeration apparatus of claim 2 , further comprising: an oxygen sensor which measures an oxygen concentration of the air in the container; a carbon dioxide sensor which measures a carbon dioxide concentration of the air in the container; an air passage which allows the first and second spaces to communicate with each other so that the air is guided from the second space to the first space while the interior fan is rotating, and which is connected to the oxygen sensor and the carbon dioxide sensor to measure the oxygen concentration and the carbon dioxide concentration of the air; a blocking member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, wherein the air passage has an inlet at a location where the flow of the air blown from the interior fan is blocked by the blocking member. 12. The container refrigeration apparatus of claim 3 , further comprising: an oxygen sensor which measures an oxygen concentration of the air in the container; a carbon dioxide sensor which measures a carbon dioxide concentration of the air in the container; an air passage which allows the first and second spaces to communicate with each other so that the air is guided from the second space to the first space while the interior fan is rotating, and which is connected to the oxygen sensor and the carbon dioxide sensor to measure the oxygen concentration and the carbon dioxide concentration of the air; a blocking member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, wherein the air passage has an inlet at a location where the flow of the air blown from the interior fan is blocked by the blocking member. 13. The container refrigeration apparatus of claim 4 , further comprising: an oxygen sensor which measures an oxygen concentration of the air in the container; a carbon dioxide sensor which measures a carbon dioxide concentration of the air in the container; an air passage which allows the first and second spaces to communicate with each other so that the air is guided from the second space to the first space while the interior fan is rotating, and which is connected to the oxygen sensor and the carbon dioxide sensor to measure the oxygen concentration and the carbon dioxide concentration of the air; a blocking member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, wherein the air passage has an inlet at a location where the flow of the air blown from the interior fan is blocked by the blocking member. 14. The container refrigeration apparatus of claim 5 , further comprising: an oxygen sensor which measures an oxygen concentration of the air in the container; a carbon dioxide sensor which measures a carbon dioxide concentration of the air in the container; an air passage which allows the first and second spaces to communicate with each other so that the air is guided from the second space to the first space while the interior fan is rotating, and which is connected to the oxygen sensor and the carbon dioxide sensor to measure the oxygen concentration and the carbon dioxide concentration of the air; a blocking member which forms, in the second space, a region where the flow of the air blown from the interior fan is blocked, wherein the air passage has an inlet at a location where the flow of the air blown from the interior fa