Heat exchanger

The invention claimed is: 1. A heat exchanger comprising: a plurality of flat heat transfer tubes that are arranged in a region in which air flows; and a header that is bonded to end portions of the plurality of flat heat transfer tubes, wherein each of the plurality of flat heat transfer tubes internally includes a plurality of windward channels; and a plurality of leeward channels that are arranged on a leeward side of the air relative to the plurality of windward channels, the header includes a main body unit having an internal space; a first partition member that separates the internal space into: a refrigerant inflow space to which a refrigerant flows from a pipe; and an upper space that is arranged at an upper side of the refrigerant inflow space, and connected to the plurality of windward channels and the plurality of leeward channels; and a second partition member that separates a windward side space at a side closer to end portions of the plurality of windward channels in the upper space and a leeward side space at a side closer to end portions of the plurality of leeward channels in the upper space, the first partition member is provided with a leeward side inflow port that allows communication between the refrigerant inflow space and the leeward side space to cause the refrigerant to gush out towards an upper portion of the leeward side space, and an upper side communication path that allows communication between the leeward side space and the windward side space is formed in an upper portion of the second partition member. 2. The heat exchanger according to claim 1 , wherein a lower side communication path that allows communication between the leeward side space and the windward side space is formed in a lower portion of the second partition member. 3. The heat exchanger according to claim 1 , wherein the header further includes a windward side partition member that separates an insertion space in which end portions of the plurality of windward channels and end portions of the plurality of leeward channels are arranged in the upper space, and the windward side space in the upper space; and a leeward side partition member that separates the insertion space and the leeward side space, and a plurality of windward communication holes that allow communication between the insertion space and the windward side space are formed in the windward side partition member. 4. The heat exchanger according to claim 3 , wherein a plurality of leeward communication holes that allow communication between the insertion space and the leeward side space are formed in the leeward side partition member. 5. The heat exchanger according to claim 3 further comprising: a plurality of partition members that separate the insertion space into a plurality of spaces, wherein the plurality of windward communication holes allow communication between the plurality of spaces and the windward side space, respectively, and an end portion of any of the plurality of flat heat transfer tubes is arranged in each of the plurality of spaces. 6. The heat exchanger according to claim 1 , wherein the upper side communication path is formed such that an upper edge of the leeward side space and an upper edge of the windward side space are connected to each other without a step.