Outdoor heat exchanger

The invention claimed is: 1. An outdoor heat exchanger comprising: a first tank introducing a refrigerant to the outdoor heat exchanger; a second tank spaced from the first tank; a plurality of tubes extending longitudinally in a height direction of the outdoor heat exchanger, the plurality of tubes extending between and in fluid communication with the first tank and the second tank, the plurality of tubes cooperating with the first tank and the second tank to form a flow path through the outdoor heat exchanger, wherein the flow path includes a first path through the plurality of tubes and a second path through the plurality of tubes, the first path conveying the refrigerant from the first tank to the second tank and the second path conveying the refrigerant from the second tank to the first tank; a plurality of fins interposed between adjacent ones of the plurality of tubes; a liquid receiver coupled to one of the first tank and the second tank; a first baffle disposed in the first tank, the first baffle guiding the refrigerant to flow along the first path; a second baffle disposed in the second tank, the second baffle guiding the refrigerant to flow along the second path; and a flux distribution plate disposed in the second tank, the flux distribution plate minimizing a cross-sectional flow area for the refrigerant flowing through the second tank, wherein the flux distribution plate has a shape corresponding to a cross-sectional shape of the second tank, wherein the flux distribution plate has a flow through hole formed in an upper portion thereof with respect to the height direction, wherein the flux distribution plate is disposed in a portion of the second tank corresponding to the second path, wherein a central plane divides the second tank equally into an upper portion disposed above the central plane with respect to the height direction and a lower portion disposed below the central plane with respect to the height direction, and wherein a bottommost surface of the flux distribution plate defining the flow through hole thereof is disposed above the central plane of the second tank with respect to the height direction, wherein the flux distribution plate is positioned intermediate the first baffle and the second baffle with respect to a length direction of the outdoor heat exchanger, wherein the flux distribution plate guides a first portion of the refrigerant flowing from the first path to flow along the second path and a remaining second portion of the refrigerant flowing from the first path flows through the flow through hole, and wherein the second baffle guides the remaining second portion of the refrigerant to flow along the second path. 2. The outdoor heat exchanger of claim 1 , wherein the flux distribution plate is inserted into the second tank through an insertion groove formed in the second tank. 3. The outdoor heat exchanger of claim 1 , wherein the first tank includes: an introduction tank extending in a length direction with respect to a length of the outdoor heat exchanger, the introduction tank introducing the refrigerant to the outdoor heat exchanger; and a discharge tank disposed parallel to the introduction tank and discharging the refrigerant from the outdoor heat exchanger, the introduction tank disposed intermediate the discharge tank and the plurality of tubes. 4. The outdoor heat exchanger of claim 3 , wherein the flow path includes the first path, the second path, a third path, and a fourth path, and wherein the first path extends from a first refrigerant flow portion of the introduction tank to a first refrigerant flow portion of the second tank, the second path extends from the first refrigerant flow portion of the second tank to a second refrigerant flow portion of the introduction tank, the third path extends from the second refrigerant flow portion of the introduction tank to a second refrigerant flow portion of the second tank, and the fourth path extends from a third refrigerant flow portion of the second tank to a third refrigerant flow portion of the introduction tank. 5. The outdoor heat exchanger of claim 4 , wherein the liquid receiver includes: a body having a predetermined internal space formed therein; a first connection pipe providing fluid communication between the second refrigerant flow portion of the second tank to the body; and a second fluid connection pipe providing fluid communication between the body and the third refrigerant flow portion of the second tank, and wherein the refrigerant is conveyed consecutively through the first refrigerant flow portion of the introduction tank, the first path, the first refrigerant flow portion of the second tank, the second path, the second refrigerant flow portion of the introduction tank, the third path, the second refrigerant flow portion of the second tank, the first connection pipe, the body, the second connection pipe, the third refrigerant flow portion of the second tank, the fourth path, the third refrigerant flow portion of the introduction tank, and the discharge tank. 6. The outdoor heat exchanger of claim 1 , further comprising a first pipe coupled to the first tank and a second pipe coupled to the second tank, the first pipe introducing refrigerant to the first tank and the second pipe discharging refrigerant from the second tank. 7. The outdoor heat exchanger of claim 6 , wherein the flow path includes the first path, the second path, and a third path, the first path extending from a first refrigerant flow portion of the first tank to a first refrigerant flow portion of the second tank, the second path extending from the first refrigerant flow portion of the second tank to a second refrigerant flow portion of the first tank, the third path extending from a third refrigerant flow portion of the first tank to a second refrigerant flow portion of the second tank. 8. The outdoor heat exchanger of claim 7 , wherein the liquid receiver includes: a body having a predetermined internal space formed therein; a first connection pipe providing fluid communication between the second portion of the first tank to the body; and a second fluid connection pipe providing fluid communication between the body and the third refrigerant flow portion of the first tank, and wherein the refrigerant is conveyed consecutively through the first pipe, the first refrigerant flow portion of the first tank, the first path, the first refrigerant flow portion of the second tank, the second path, the second refrigerant flow portion of the first tank, the first connection pipe, the body, the second connection pipe, the third refrigerant flow portion of the first tank, the third path, the second refrigerant flow portion of the second tank, and the second pipe. 9. The outdoor heat exchanger of claim 6 , wherein the flow path includes the first path, the second path, a third path, a fourth path, and a fifth path, the first path extending from a first refrigerant flow portion of the first tank to a first refrigerant flow portion of the second tank, the second path extending from the first refrigerant flow portion of the second tank to a second refrigerant flow portion of the first tank, the third path extending from the second refrigerant flow portion of the first tank to a second refrigerant flow portion of the second tank, the fourth path extending from the second refrigerant flow portion of the second tank to a third refrigerant flow portion of the first tank, the fifth path extending from a fourth refrigerant flow portion of the first tank to a third refrigerant flow portion of the second tank. 10. The outdoor heat exchanger of claim 9 , wherein the liquid receiver includes: a body having a predetermined internal space formed therein; a first