Heat exchanger and method for processing heat exchanger

The invention claimed is: 1 . A heat exchanger, comprising: a first header and a second header; and a plurality of heat exchange tubes spaced apart along a length direction of the first header, the heat exchange tube communicating the first header with the second header, the heat exchange tube being flat, the heat exchange tube comprising a first face and a second face arranged along a thickness direction of the heat exchange tube, the heat exchange tube comprising a third face and a fourth face arranged along a width direction of the heat exchange tube, an intersection portion of the first face and the third face being a first side edge, the heat exchange tube comprising a first section, a bent section and a second section, a first end of the first section of the heat exchange tube being connected to a first end of the bent section, a second end of the first section being in communication with the first header, a first end of the second section of the heat exchange tube being connected to a second end of the bent section, a second end of the second section being in communication with the second header, a length direction of the first section and a length direction of the second section define an included angle therebetween, and adjacent bent sections in a thickness direction of the bent section being spaced apart; wherein the bent section of the heat exchanger comprises a section to be bent before bending, the section to be bent comprises a protruding section and at least two transition sections, a first end of the protruding section is connected to a first end of one transition section, a second end of the one transition section is connected to the first end of the first section, a second end of the protruding section is connected to a first end of another transition section, and a second end of the other transition section is connected to the first end of the second section, wherein a plane parallel to the length direction of the first header and parallel to the length direction of the first section, and also perpendicular to a width direction of the first section is defined as a first plane before the bent section is bent; in the first plane, a projection line of a first side edge of the protruding section of the heat exchange tube is not collinear with a projection line of a first side edge of the first section of the heat exchange tube, a minimum distance from the projection line of the first side edge of the protruding section of the heat exchange tube to the projection line of the first side edge of the first section of the heat exchange tube is H, and a minimum distance from the projection line of the first side edge of the first section of the heat exchange tube to the projection line of the first side edge of the first section of another adjacent heat exchange tube in the length direction of the first header is L, and H is greater than or equal to L. 2 . The heat exchanger according to claim 1 , wherein H is less than 5 times Tw, in which Tw is a width of the heat exchange tube. 3 . The heat exchanger according to claim 1 , wherein H is greater than or equal to 1.5 times L. 4 . The heat exchanger according to claim 1 , wherein the protruding section comprises a first straight section at least in part before the bent section of the heat exchanger is bent, a length direction of the first straight section is generally parallel to the length direction of the first section, and the plurality of heat exchange tubes have consistent directions from first faces of their respective first sections to first faces of their respective first straight sections. 5 . The heat exchanger according to claim 4 , wherein the first straight section has a length of C before bending, the heat exchange tube has a length of A before the bent section of the heat exchange tube is bent, and C is less than or equal to 0.5 times A. 6 . The heat exchanger according to claim 1 , wherein, before the bent section of the heat exchanger is bent, the protruding section comprises a first arc-shaped section at least in part, and the plurality of heat exchange tubes have consistent directions from first faces of their respective first sections to first faces of their respective first arc-shaped sections. 7 . The heat exchanger according to claim 4 , wherein the transition section comprises a second straight section at least in part, and a length direction of the second straight section and the length direction of the first section define an included angle therebetween. 8 . The heat exchanger according to claim 1 , wherein the heat exchange further comprises a fin, the fin comprises a first fin and a second fin, the first fin is arranged between adjacent first sections in the length direction of the first header, the second fin is arranged between adjacent second sections in the length direction of the first header, and no fin is arranged between adjacent bent sections in the length direction of the first header, the first fin is a corrugated fin extending in the length direction of the first section of the heat exchange tube, and the second fin is a corrugated fin extending in the length direction of the second section of the heat exchange tube, and a density of the first fin is different from a density of the second fin. 9 . The heat exchanger according to claim 1 , wherein the heat exchange further comprises a fin, the fin comprises a first fin and a second fin, the first fin is arranged between adjacent first sections in the length direction of the first header, the second fin is arranged between adjacent second sections in the length direction of the first header, and no fin is arranged between adjacent bent sections in the length direction of the first header, the first fin is an insert fin extending in a thickness direction of the first section of the heat exchange tube, and the second fin is an insert fin extending in a thickness direction of the second section of the heat exchange tube. 10 . A heat exchanger processing method comprising: preparing a heat exchanger to be processed, wherein the heat exchanger to be processed comprises a first header, a second header, and a plurality of heat exchange tubes, the plurality of the heat exchange tubes are spaced apart along a length direction of the first header, the heat exchange tube communicates the first header with the second header, the heat exchange tube comprises a first face and a second face arranged in parallel in the length direction of the first header, the heat exchange tube comprises a first section, a section to be bent and a second section, a first end of the first section is connected to a first end of the section to be bent, a second end of the first section is in communication with the first header, a first end of the second section is connected to a second end of the section to be bent, and a second end of the second section is in communication with the second header; translating a part of the section to be bent of the heat exchange tube by a preset distance relative to the first section and the second section of the heat exchange tube along the length direction of the first header, so that the translated part of the section to be bent deviates from the first section of the heat exchange tube in the length direction of the first header; moving the first header towards the second header, and moving the second header towards the first header; and bending the section to be bent of the heat exchange tube in the length direction while reducing an included angle between the first section and the second section of the heat exchange tube to a predetermined angle, after translating the part of the section to be bent by the preset distance, wherein a mandrel is placed on the s