Heat exchanger for vehicle

What is claimed is: 1. A heat exchanger for a vehicle, comprising: a heat exchanging portion provided with a first connecting line in a first layer and second connecting line and third connecting line in a second layer, the first and second layers formed alternately by stacking a plurality of plates, the heat exchanging portion being configured for receiving a first operating fluid into the first connecting line, second operating fluid into the second connecting line, and a third operating fluid into the third connecting line, wherein the second and a third operating fluids heat-exchange with the first operating fluid, while the first operating fluid flows into the first connecting line, the second operating fluid flows into the second connecting line, and the third operating fluid flows into the third connecting line and while the first, second, and third operating fluids are circulated without being mixed with each other; and a bifurcating portion connecting one of inflow holes formed to the heat exchanging portion for flowing one operating fluid of the first, second, and third operating fluids with one of exhaust holes formed to the heat exchanging portion for exhausting the one operating fluid, wherein the bifurcating portion is mounted at an exterior of the heat exchanging portion, and wherein the bifurcating portion bypasses the one operating fluid from the heat exchanging portion according to a temperature of the one operating fluid, wherein the inflow holes include first, second and third inflow holes and the exhaust hole includes first, second and third exhaust holes, wherein the first operating fluid flows into the heat exchanging portion through the first inflow hole and flows out from the heat exchanging portion through the first exhaust hole, and the first inflow hole is connected to the first exhaust hole through the first connecting line, wherein the second operating fluid flows into the heat exchanging portion through the second inflow hole and flows out from the heat exchanging portion through the second exhaust hole, and the second inflow hole is connected to the second exhaust hole through the second connecting line, wherein the third operating fluid flows into the heat exchanging portion through the third inflow hole and flows out from the heat exchanging portion through the third exhaust hole. and the third inflow hole is connected to the third exhaust hole through the third connecting line, wherein the first, second, and third inflow holes are placed along a first lateral side or a second lateral side of a surface of the heat exchanging portion in a longitudinal direction of the heat exchanging portion, wherein the first, second, and third exhaust holes are distanced from the first, second, and third inflow holes and are placed along the first and second lateral sides of the surface of the heat exchanging portion in the longitudinal direction of the heat exchanging portion, wherein the bifurcating portion includes: a connecting pipe connecting the first inflow hole with the first exhaust hole at the exterior of the heat exchanging portion and having an inflow port formed at a position close to the first inflow hole and an exhaust port oriented in an opposing direction to the inflow port and formed at a position close to the first exhaust hole; and a valve unit mounted at one end portion of the connecting pipe between the first inflow hole and the inflow port, wherein the valve unit extends or contracts according to the temperature of the one operating fluid such that the one operating fluid flowing through the inflow port flows directly to the exhaust port or flows into the heat exchanging portion, wherein the valve unit includes: a mounting cap fixedly mounted to the one end portion of the connecting pipe; and a deformable member inserted in the connecting pipe and having one end portion connected to the mounting cap, wherein the deformable member extends or contracts according to the temperature of the one operating fluid through continuous contact with the one operating fluid flowing through the inflow port, and wherein the deformable member is formed by overlapping and contracting a plurality of ring members with each other in a coil spring shape, wherein when temperature of the one operating fluid is a predetermined temperature or less, neighboring ring members of the deformable portion closely contact each other to block flow of the one operating fluid into the first inflow hole so that the one operating fluid bypasses to the exhaust port, and when the temperature of the one operating fluid is more than the predetermined temperature, the neighboring ring members of the deformable portion are distanced from each other so as to form a space through which the one operating fluid flows into the first inflow hole. 2. The heat exchanger of claim 1 , wherein the first inflow hole and the first exhaust hole are formed at first two corner portions of the surface of the heat exchanging portion facing, wherein the first two corner portions are aligned in a first diagonal direction of the surface of the heat exchanging portion. 3. The heat exchanger of claim 2 , wherein the second inflow hole and the second exhaust hole are placed on an oblique line connecting second two corner portions of the corner portions in a second diagonal direction of the heat exchanging portion, and the oblique line connecting the second inflow hole and the second exhaust hole crosses a line connecting the first inflow hole and the first exhaust hole. 4. The heat exchanger of claim 3 , wherein the third inflow hole and the third exhaust hole are formed on an oblique line at another side portion of the surface of the heat-exchanging portion where the first exhaust hole is formed, and the oblique line connecting the third inflow hole and the third exhaust hole crosses a line connecting the first inflow hole and the first exhaust hole. 5. The heat exchanger of claim 1 , wherein the one operating fluid is an engine coolant. 6. The heat exchanger of claim 1 , wherein the deformable member is made from shape memory alloy adapted to extend or contract according to the temperature of one operating fluid. 7. The heat exchanger of claim 1 , wherein the deformable member includes: a pair of fixed portions positioned at both distal sides thereof in a length direction and adapted not to being deformed according to the temperature; and a deformable portion disposed between the pair of fixed portions and extending or contracting according to the temperature of the one operating fluid. 8. The heat exchanger of claim 1 , wherein the mounting cap includes: an inserting portion having one end portion inserted in and fixed to the deformable member; and a mounting portion having one end integrally connected to the other end of the inserting portion, and mounted at an interior circumference of the connecting pipe. 9. The heat exchanger of claim 8 , wherein a screw is formed at an exterior circumference of the mounting portion so as to be threaded to the interior circumference of the connecting pipe. 10. The heat exchanger of claim 8 , wherein a blocking portion for being blocked by an end portion of the connecting pipe is integrally formed with the other end of the mounting portion. 11. The heat exchanger of claim 8 , wherein a tool hole is formed at an interior circumference of the blocking portion. 12. The heat exchanger of claim 8 , further including a sealing for preventing the one operating fluid from leaking from the connecting pipe, wherein the sealing is mounted between the mounting portion and the inserting portion. 13. The heat exchanger of claim 1 , furthe