Air conditioning apparatus

The invention claimed is: 1. An air conditioning apparatus, comprising: a casing having an intake port and a blow-out port; a partition member dividing an interior of the casing into a heat exchanger compartment located on an intake port side and a fan compartment located on a blow-out port side, the partition member having a plate with a fan entrance, the fan entrance making the heat exchanger compartment and the fan compartment communicate with each other; a heat exchanger mounted in the heat exchanger compartment; a first drain pan mounted in the heat exchanger compartment and arranged and configured to receive water produced by dew condensation in the heat exchanger; and a centrifugal fan including a bladed wheel having a plurality of rearward blades and being configured to suck air existing in the heat exchanger compartment into the fan compartment through the fan entrance, with the bladed wheel being mounted in the fan compartment such that a rotary shaft of the bladed wheel is oriented along a first axial direction perpendicular to a second lateral direction along which the plate of the partition member extends, the first drain pan being disposed in a position adjacent to a drain pan nearby lateral part, the drain pan nearby lateral part being one of multiple lateral parts of the casing that are disposed along the first axial direction, and the rotary shaft of the bladed wheel being disposed in a position adjacent to a bladed wheel nearby lateral part, the bladed wheel nearby lateral part being another one of the multiple lateral parts of the casing and being opposed to the drain pan nearby lateral part. 2. The air conditioning apparatus according to claim 1 , wherein the intake port is opposed to the fan entrance. 3. The air conditioning apparatus according to claim 1 , wherein the fan entrance is disposed so as not to overlap with the first drain pan when seen from a direction along the rotary shaft. 4. The air conditioning apparatus according to claim 1 , wherein the first drain pan is arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a horizontal direction, and the air conditioning apparatus further comprises a second drain pan, the second drain pan being mounted in the heat exchanger compartment, the second drain pan being arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a vertical direction. 5. The air conditioning apparatus according to claim 1 , wherein the blow-out port is opposed to the fan entrance and is at least partially disposed in a position adjacent to a blow-out port nearby lateral part, the blow-out port nearby lateral part being yet another one of the multiple lateral parts of the casing and being opposed to the bladed wheel nearby lateral part. 6. The air conditioning apparatus according to claim 2 , wherein the fan entrance is disposed so as not to overlap with the first drain pan when seen from a direction along the rotary shaft. 7. The air conditioning apparatus according to claim 2 , wherein the first drain pan is arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a horizontal direction, and the air conditioning apparatus further comprises a second drain pan, the second drain pan being mounted in the heat exchanger compartment, the second drain pan being arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a vertical direction. 8. The air conditioning apparatus according to claim 2 , wherein the blow-out port is opposed to the fan entrance and is at least partially disposed in a position adjacent to a blow-out port nearby lateral part, the blow-out port nearby lateral part being yet another one of the multiple lateral parts of the casing and being opposed to the bladed wheel nearby lateral part. 9. The air conditioning apparatus according to claim 3 , wherein the first drain pan is arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a horizontal direction, and the air conditioning apparatus further comprises a second drain pan, the second drain pan being mounted in the heat exchanger compartment, the second drain pan being arranged and configured to receive water produced by dew condensation in the heat exchanger when the casing is disposed such that the rotary shaft is oriented along a vertical direction. 10. The air conditioning apparatus according to claim 3 , wherein the blow-out port is opposed to the fan entrance and is at least partially disposed in a position adjacent to a blow-out port nearby lateral part, the blow-out port nearby lateral part being yet another one of the multiple lateral parts of the casing and being opposed to the bladed wheel nearby lateral part. 11. The air conditioning apparatus according to claim 4 , wherein the blow-out port is opposed to the fan entrance and is at least partially disposed in a position adjacent to a blow-out port nearby lateral part, the blow-out port nearby lateral part being yet another one of the multiple lateral parts of the casing and being opposed to the bladed wheel nearby lateral part.