Heat exchanger for cooling electrical element

The invention claimed is: 1. A heat exchanger for cooling an electrical element, comprising: a tube extended in a length direction, bent at a predetermined point so as to contact both surfaces, in a height direction, of the electrical element disposed in a partial region of an upper surface thereof, and having a heat exchange medium flowing therein; a first header tank coupled and fixed to one end portion of the tube in the length direction; a second header tank coupled and fixed to the other end portion of the tube in the length direction and disposed to be spaced apart from a center of the first header tank by a predetermined distance in the length direction in a state in which the tube is bent; an inlet pipe formed in the first header tank and having the heat exchange medium introduced therethrough; and an outlet pipe formed in the second header tank and having the heat exchange medium discharged therethrough, wherein the first header tank and the second header tank are disposed to be close to each other and misaligned in a height direction, a distance between a portion where the tube is bent and a portion where the first header tank is fixed is different from a distance between a portion where the tube is bent and a portion where the second header tank is fixed, and the tube is coupled to the first header tank and the second header tank in a state in which it is eccentric from the centers of the first header tank and the second header tank in the height direction. 2. The heat exchanger for cooling an electrical element of claim 1 , wherein the inlet pipe and the outlet pipe are disposed to be asymmetric to each other on the basis of a central line of the first header tank in a width direction. 3. The heat exchanger for cooling an electrical element of claim 2 , wherein one end surfaces of the inlet pipe and the outlet pipe connected to the first header tank and the second header tank have a diameter W 1 in a horizontal direction thereof larger than a diameter W 2 in a vertical direction thereof, and the other end surfaces of the inlet pipe and the outlet pipe are formed in a circular shape having diameters larger than heights of the first header tank and the second header tank. 4. The heat exchanger for cooling an electrical element of claim 1 , wherein the tube includes a round part protruding outwardly at the point at which the tube is bent so that a height of the point at which the tube is bent is higher than an interval between facing surfaces of the tube at a point at which the electrical element is seated. 5. The heat exchanger for cooling an electrical element of claim 1 , wherein a plurality of tubes are formed to be spaced apart from each other by a predetermined distance in a width direction. 6. The heat exchanger for cooling an electrical element of claim 5 , wherein the tube includes: a first tube extended in the length direction and bent at a predetermined point to closely adhere to both surfaces of the electrical element disposed between surfaces facing each other in the height direction; and a second tube disposed in parallel with the first tube in a state in which it is spaced apart from the first tube by a predetermined distance in the width direction and bent to have an element insertion interval corresponding to a distance between surfaces contacting both surfaces of the electrical element, different from that of the first tube. 7. A heat exchanger assembly for cooling an electrical element, comprising: the heat exchanger for cooling an electrical element of claim 1 ; and the electrical element, wherein the electrical element is assembled so that both surfaces thereof in the height direction contact the tube. 8. The heat exchanger assembly for cooling an electrical element of claim 7 , wherein a width Tw of the tube is smaller than or equal to a width Cw of the electrical element. 9. An electrical element cooling module comprising: the heat exchanger for cooling an electrical element of claim 1 ; a lower plate disposed on a lower surface of the heat exchanger for cooling an electrical element; an upper plate disposed on an upper surface of the heat exchanger for cooling an electrical element and coupled to the lower plate to apply a predetermined pressure to the heat exchanger for cooling an electrical element; and an external housing in which the heat exchanger for cooling an electrical element, the lower plate, and the upper plate are accommodated. 10. The electrical element cooling module of claim 9 , further comprising an elastic member disposed in a space between the upper plate and the tube and having elasticity in the height direction. 11. The electrical element cooling module of claim 10 , wherein the elastic member is extended in the length direction so as to correspond to the tube. 12. The electrical element cooling module of claim 9 , wherein the electrical element cooling module is in communication with the outside of the external housing through the inlet pipe and the outlet pipe, and a first coupling hole and a second coupling hole into which the inlet pipe and the outlet pipe are inserted to protrude outwardly are formed in the external housing. 13. The electrical element cooling module of claim 12 , further comprising sealing members mounted between the inlet pipe and the first coupling hole and between the outlet pipe and the second coupling hole. 14. The electrical element cooling module of claim 12 , further comprising a fixing bracket connecting the heat exchanger for cooling an electrical element and the external housing to each other. 15. The electrical element cooling module of claim 14 , wherein the fixing bracket is coupled to one or more of the first header tank, the second header tank, the tube, the inlet pipe, and the outlet pipe. 16. A heat exchanger assembly for cooling an electrical element, comprising: a heat exchanger, the heat exchanger comprising a plurality of tubes extended in a length direction, bent at a predetermined point so as to contact both surfaces, in a height direction, of the electrical element disposed in a partial region of an upper surface thereof, and having a heat exchange medium flowing therein; a first header tank coupled and fixed to one end portion of the plurality of tubes in the length direction; a second header tank coupled and fixed to the other end portion of the plurality of tubes in the length direction and disposed to be spaced apart from a center of the first header tank by a predetermined distance in the length direction in a state in which the plurality of tubes are bent; an inlet pipe formed in the first header tank and having the heat exchange medium introduced therethrough; and an outlet pipe formed in the second header tank and having the heat exchange medium discharged therethrough, wherein the first header tank and the second header tank are disposed to be close to each other and misaligned in a height direction, a distance between a portion where the plurality of tubes are bent and a portion where the first header tank is fixed is different from a distance between a portion where the plurality of tubes are bent and a portion where the second header tank is fixed, and the plurality of tubes are coupled to the first header tank and the second header tank in a state in which it is eccentric from the centers of the first header tank and the second header tank in the height direction; and the electrical element, wherein the electrical element is assembled so that both surfaces thereof in the height direction contact the plurality of tubes, wherein there are