Heat exchanger

What is claimed is: 1. A heat exchanger, comprising: tubes in which a refrigerant is circulatable, the tubes being arranged in a plurality of rows including a first row and a second row; a first header having a first chamber to communicate with one end portion of each of the tubes of the first row and a second chamber to communicate with one end portion of each of the tubes of the second row; a second header having a third chamber to communicate with an other end portion of each of the tubes of the first row and a fourth chamber to communicate with an other end portion of each of the tubes of the second row and the third chamber; an inlet pipe to communicate with the first chamber; an outlet pipe to communicate with the second chamber; and a distributer provided in the first chamber to distribute the refrigerant flowing into the first chamber through the inlet pipe to the tubes of the first row, wherein the distributer comprises: a first separating baffle to divide the first chamber into a mixing chamber in which the refrigerant is mixed and a supplying chamber to supply the mixed refrigerant to the tubes of the first row; a second separating baffle to divide the supplying chamber into a first sub chamber and a second sub chamber and including at least one groove; and a distribution pipe penetrating the first separating baffle to communicate the mixing chamber with the supplying chamber, the distribution pipe having a plurality of distribution holes to supply the mixed refrigerant from the mixing chamber to the supplying chamber and at least one rib protruding from an outer wall of the distribution pipe and insertable into a respective on of the at least one groove of the second separating baffle. 2. The heat exchanger according to claim 1 , wherein a number of the tubes of the first row and a number of the tubes of the second row are each 36 or more. 3. The heat exchanger according to claim 1 , wherein the second separating baffle is provided at a longitudinal central portion of the supplying chamber. 4. The heat exchanger according to claim 1 , further comprising guide baffles provided at each of the third chamber and the fourth chamber to correspond to a location of the second separating baffle to compartmentalize the third chamber and the fourth chamber. 5. The heat exchanger according to claim 1 , wherein the plurality of distribution holes comprise at least one first distribution hole positioned at the first sub chamber and at least one second distribution hole positioned at the second sub chamber. 6. The heat exchanger according to claim 5 , wherein the first sub chamber is positioned such that a distance between the first sub chamber and the mixing chamber is smaller than that between the first sub chamber and the second sub chamber. 7. The heat exchanger according to claim 6 , wherein two first distribution holes are provided at the first sub chamber and one second distribution hole is provided at the second sub chamber. 8. The heat exchanger according to claim 1 , wherein the first header comprises a body having a bottom part and a central partition, and a cover coupled to the body and having an upper wall and a side wall, and the second separating baffle penetrates the body and is in contact with and supported on an inner surface of the cover. 9. The heat exchanger according to claim 1 , wherein the second separating baffle comprises a fixing part forming a portion of a distribution pipe-receiving hole configured to receive the distribution pipe, an operating part rotatably coupled to the fixing part and forming the remainder of the distribution pipe-receiving hole, and a hinge part connecting the fixing part to the operating part. 10. The heat exchanger according to claim 9 , wherein the fixing part, the operating part and the hinge part included in the second separating baffle are formed integrally with each other. 11. A heat exchanger, comprising: tubes in which a refrigerant is circulatable to exchange heat with outside air, the tubes being arranged in a plurality of rows including a first row and a second row; a first header having a first chamber to communicate with one end portion of each of the tubes of the first row and a second chamber to communicate with one end portion of each of the tubes of the second row; a second header having a third chamber to communicate with an other end portion of each of the tubes of the first row and a fourth chamber to communicate with an other end portion of each of the tubes of the second row and the third chamber; an inlet pipe to communicate with the first chamber to allow the refrigerant to flow into the first chamber when a cooling cycle is operated and to allow the refrigerant to be discharged from the first chamber when a heating cycle is operated; an outlet pipe to communicate with the second chamber to allow the refrigerant to flow into the second chamber in the heating cycle operation and to allow the refrigerant to be discharged from the second chamber in the cooling cycle operation; a cooling distributer provided in the first chamber to distribute the refrigerant circulated into the first chamber through the inlet pipe in the cooling cycle operation to the tubes of the first row; and a heating distributer provided in the second chamber to distribute the refrigerant circulated into the second chamber through the outlet pipe in the heating cycle operation to the tubes of the second row; wherein the cooling distributer comprises: a first separating baffle to divide the first chamber into a mixing chamber in which the refrigerant is mixed and a supplying chamber for supplying the refrigerant to the tubes of the first row, a second separating baffle to divide the supplying chamber into a first sub chamber and a second sub chamber and including at least one groove, and a cooling distribution pipe penetrating the first separating baffle to communicate the mixing chamber with the supplying chamber, the cooling distribution pipe having at least one distribution hole to supply the refrigerant in the mixing chamber to the supplying chamber including at least one rib protruding from an outer wall of the cooling distribution pipe and insertable into a respective one of the at least one groove of the second separating baffle. 12. The heat exchanger according to claim 11 , wherein a number of the tubes of the first row and a number of the tubes of the second row are each 36 or more. 13. The heat exchanger according to claim 11 , wherein the second separating baffle is provided at a longitudinal central portion of the supplying chamber. 14. The heat exchanger according to claim 11 , wherein the heating distributer comprises a distributing baffle to divide the second chamber into a first distributing chamber and a second distributing chamber, and a heating distribution pipe penetrating the distributing baffle to communicate the first distributing chamber with the second distributing chamber and having at least one distribution hole to supply the refrigerant in the first distributing chamber to the second distributing chamber. 15. The heat exchanger according to claim 14 , wherein the at least one distribution hole of the heating distribution pipe is positioned in a zone far away from the outlet pipe with respect to the second separating baffle. 16. A heat exchanger, comprising: tubes in which a refrigerant is circulatable to exchange heat with outside air, the tubes being arranged in a plurality of rows including a first row and a second row a first header having a first chamber to communicate with one end portion of each of the tub