Vehicle heat exchanger

The invention claimed is: 1. A heat exchanger for a vehicle, comprising: an upper header tank comprising a first row upper space, a second row upper space, and an upper intermediate space having first and second communication holes and formed therebetween; a lower header tank comprising a first row lower space, a second row lower space, and a lower intermediate space having first and second communication holes and formed therebetween; a first row heat exchanger formed by connecting the first row upper space to the first row lower space using a plurality of tubes; a second row heat exchanger formed by connecting the second row upper space to the second row lower space using a plurality of tubes; and a plurality of baffles installed in the first row upper space, the second row upper space, the first row lower space, and the second row lower space to form refrigerant passes, wherein: a parallel flow is formed in which a refrigerant is distributed to the first row heat exchanger and the second row heat exchanger; and a counter flow is formed in which the refrigerant flowing from an introduction port to a discharge port flows in opposite directions in each of the first row heat exchanger and the second row heat exchanger. 2. The heat exchanger according to claim 1 , wherein the introduction port is a refrigerant inlet formed in the upper intermediate space, the discharge port is a refrigerant outlet formed in the lower intermediate space, the refrigerant is introduced into the refrigerant inlet and is then distributed to and introduced into the first row upper space and the second row upper space through the first and second communication holes formed at opposite sides in the upper intermediate space, and the distributed refrigerants flow in opposite directions in the first row heat exchanger and the second row heat exchanger to flow to the first row lower space and the second row lower space, are introduced from the first row lower space and the second row lower space into the lower intermediate space through the first and second communication holes and formed at opposite sides in the lower intermediate space, and are discharged through the refrigerant outlet. 3. The heat exchanger according to claim 2 , wherein the refrigerant inlet is formed at one side of an upper portion in the upper intermediate space, and the refrigerant outlet is formed at one side of a lower portion in the lower intermediate space. 4. The heat exchanger according to claim 2 , wherein the refrigerant inlet is formed at any one of both sides in the upper intermediate space, and the refrigerant outlet is formed at any one of both sides in the lower intermediate space. 5. The heat exchanger according to claim 2 , wherein: the baffles are alternately installed at a certain distance in the first row upper space and the first row lower space in the first row heat exchanger so that the same number of baffles is installed in the first row upper space and the first row lower space to form odd refrigerant passes; and the baffles are alternately installed at a certain distance in the second row upper space and the second row lower space in the second row heat exchanger so that the same number of baffles is installed in the second row upper space and the second row lower space to form odd refrigerant passes. 6. The heat exchanger according to claim 1 , wherein the introduction port is a refrigerant inlet formed in the upper intermediate space, the discharge port is a refrigerant outlet formed in the lower intermediate space, the refrigerant is introduced into the refrigerant inlet and flows downward to the first row lower space through a first pass of the first row heat exchanger, a portion of the refrigerant flows in one direction along refrigerant passes of the first row heat exchanger to flow upward to the first row upper space, flows to the upper intermediate space through the first communication hole formed at one side in the upper intermediate space, is introduced into the second row upper space through the second communication hole formed at an opposite side in the upper intermediate space, and is then discharged to the refrigerant outlet formed in the second row upper space, and the remainder of the refrigerant is introduced into the lower intermediate space through the first communication hole formed at one side in the lower intermediate space, is introduced into the second row heat exchanger through the second communication hole formed at an opposite side in the lower intermediate space to flow along refrigerant passes of the second row heat exchanger in a direction opposite to the refrigerant flow in the first row heat exchanger, and then flows upward to the second row upper space to be discharged through the refrigerant outlet. 7. The heat exchanger according to claim 6 , wherein the refrigerant inlet and the refrigerant outlet are formed at the same side in the first row upper space or the second row upper space. 8. The heat exchanger according to claim 6 , wherein: the baffles are alternately installed at a certain distance in the first row upper space and the first row lower space in the first row heat exchanger so that one more baffles are installed in the first row upper space, compared to the first row lower space, to form even refrigerant passes; and the baffles are alternately installed at a certain distance in the second row upper space and the second row lower space in the second row heat exchanger so that the same number of baffles is installed in the second row upper space and the second row lower space to form odd refrigerant passes.