Heat exchanger

1 . A heat exchanger, which includes a refrigerant flow path having a refrigerant inlet for introducing refrigerant into the heat exchanger and a refrigerant outlet for discharging refrigerant, and a coolant flow path through which coolant flows to exchange heat with the refrigerant flowing through the refrigerant flow path, wherein the coolant flow path includes a first coolant flow path through which first coolant flows, and a second coolant flow path through which second coolant flowing in another place relative to the first coolant flows, and wherein the heat exchanger is partitioned into a first heat exchange section, in which the first coolant of the first coolant flow path exchanges heat with the refrigerant and a second heat exchange section, in which the second coolant of the second coolant flow path exchanges heat with the refrigerant, and the heat exchange in the first heat exchange section and the heat exchange in the second heat exchange are carried out independently. 2 . The heat exchanger according to claim 1 , wherein a plurality of plates are stacked on one another to form the refrigerant flow path, the first coolant flow path and the second coolant flow path therein, and wherein a partition plate is disposed between the plates to partition the first coolant flow path from the second coolant flow path. 3 . The heat exchanger according to claim 2 , wherein a first coolant inlet for introducing the first coolant into the heat exchanger and a first coolant outlet for discharging the first coolant are disposed at one side in the stacked direction of the plates, and a second coolant inlet for introducing the second coolant into the heat exchanger and a second coolant outlet for discharging the second coolant are disposed at the other side in the stacked direction of the plates, and wherein the refrigerant inlet and the refrigerant out are disposed at the opposite sides in the stacked direction of the plates to form a 2-pass structure. 4 . The heat exchanger according to claim 3 , wherein a refrigerant passing hole is formed in the partition plate so that the refrigerant passed through the first heat exchange section flows to the second heat exchange section. 5 . The heat exchanger according to claim 1 , wherein a ratio of a heat exchange area between the first coolant and the refrigerant in the first heat exchange section to a heat exchange area between the second coolant and the refrigerant in the second heat exchange section is controlled according to a temperature difference between the first coolant and the second coolant. 6 . The heat exchanger according to claim 1 , wherein the first coolant is a stack coolant and the second coolant is an electronic unit coolant. 7 . The heat exchanger according to claim 6 , wherein, when temperature of the stack coolant and temperature of the electronic unit coolant are equal, a heat exchange area of the stack coolant is about 65%, and a heat exchange area of the electronic unit coolant is about 35%. 8 . The heat exchanger according to claim 6 , wherein, when temperature of the stack coolant is 10 degrees higher than that of the electronic unit coolant, the heat exchange area of the stack coolant and the heat exchange area of the electronic unit coolant is equal to each other. 9 . The heat exchanger according to claim 1 , wherein the refrigerant flowing through the refrigerant flow path first exchanges heat with the coolant, which is higher in temperature, of the first coolant and the second coolant. 10 . The heat exchanger according to claim 1 , wherein a bypass channel is disposed on at least one of the first coolant flow path and the second coolant flow path to bypass the coolant. 11 . The heat exchanger according to claim 10 , wherein, in a cooling mode that the refrigerant radiates heat, the refrigerant exchanges heat with the second coolant after exchanging heat with the first coolant, and wherein, in a heating mode that the refrigerant absorbs heat, the coolant of the second coolant flow path exchanges heat only with the first coolant after being bypassed. 12 . A heat exchanger comprising: a first heat exchange section for exchanging heat between first coolant and refrigerant; a second heat exchange section for exchanging heat between second coolant, which flows in another place relative to the first coolant, and the refrigerant, the second heat exchange section being partitioned from the first heat exchange section to exchange heat independently; a first coolant flow path formed in the first heat exchange section; a second coolant flow path formed in the second heat exchange section; and a refrigerant flow path formed to penetrate through the first heat exchange section and the second heat exchange section.