Heat exchanger and air conditioner

The invention claimed is: 1. A heat exchanger that exchanges heat between refrigerant flowing inside and air flowing outside, the heat exchanger comprising: an upper upstream-side flat tube; a first upper downstream-side flat tube downstream of the upper upstream-side flat tube in a direction of air flow; and a second upper downstream-side flat tube downstream of the first upper downstream-side flat tube in the direction of the air flow; a lower upstream-side flat tube below the upper upstream-side flat tube such that a flat portion of the lower upstream-side flat tube faces a flat portion of the upper upstream-side flat tube; a first lower downstream-side flat tube downstream of the lower upstream-side flat tube in the direction of the air flow such that a flat portion of the first lower downstream-side flat tube faces a flat portion of the first upper downstream-side flat tube; a second lower downstream-side flat tube downstream of the first lower downstream-side flat tube in the direction of the air flow such that a flat portion of the second lower downstream-side flat tube faces a flat portion of the second upper downstream-side flat tube; and a space formation member that defines: an upper distribution space in which the refrigerant coming out of the upper upstream-side flat tube is distributed to the first upper downstream-side flat tube and the second upper downstream-side flat tube, and a lower distribution space in which the refrigerant coming out of the lower upstream-side flat tube is distributed to the first lower downstream-side flat tube and the second lower downstream-side flat tube, wherein the space formation member comprises a partition plate that separates the upper distribution space from the lower distribution space. 2. The heat exchanger according to claim 1 , wherein the upper distribution space turns back the refrigerant coming out of the upper upstream-side flat tube and leads the refrigerant to the first upper downstream-side flat tube and the second upper downstream-side flat tube, and the lower distribution space turns back the refrigerant coming out of the lower upstream-side flat tube and leads the refrigerant to the first lower downstream-side flat tube and the second lower downstream-side flat tube. 3. The heat exchanger according to claim 1 , further comprising: a header that comprises the space formation member, wherein the upper distribution space and the lower distribution space are inside the header, and all of the upper upstream-side flat tube, the lower upstream-side flat tube, the first upper downstream-side flat tube, the second upper downstream-side flat tube, the first lower downstream-side flat tube, and the second lower downstream-side flat tube are connected to the header. 4. The heat exchanger according to claim 1 , wherein the heat exchanger further comprises: a portion in which flat tubes connected to the upper distribution space do not overlap each other when viewed in the direction of the air flow; and a portion in which flat tubes connected to the lower distribution space do not overlap each other when viewed in the direction of the air flow. 5. The heat exchanger according to claim 1 , wherein a first communicating channel and a second communicating channel are disposed in the upper distribution space, the first communicating channel leads the refrigerant coming out of the upper upstream-side flat tube to the first upper downstream-side flat tube, the second communicating channel leads the refrigerant coming out of the upper upstream-side flat tube to the second upper downstream-side flat tube, a flow path defined by the first communicating channel is wider than a flow path defined by the second communicating channel, a third communicating channel and a fourth communicating channel are disposed in the lower distribution space, the third communicating channel leads the refrigerant coming out of the lower upstream-side flat tube to the first lower downstream-side flat tube, the fourth communicating channel leads the refrigerant coming out of the lower upstream-side flat tube to the second lower downstream-side flat tube, and a flow path defined by the third communicating channel is wider than a flow path defined by the fourth communicating channel. 6. The heat exchanger according to claim 1 , wherein a first communicating channel and a second communicating channel are disposed in the upper distribution space, the first communicating channel leads the refrigerant coming out of the upper upstream-side flat tube to the first upper downstream-side flat tube, the second communicating channel leads the refrigerant coming out of the upper upstream-side flat tube to the second upper downstream-side flat tube, an inlet of the first communicating channel is disposed lower in a direction of gravity than an inlet of the second communicating channel, a third communicating channel and a fourth communicating channel are disposed in the lower distribution space, the third communicating channel leads the refrigerant coming out of the lower upstream-side flat tube to the first lower downstream-side flat tube, the fourth communicating channel leads the refrigerant coming out of the lower upstream-side flat tube to the second lower downstream-side flat tube, and an inlet of the third communicating channel is disposed lower in the direction of gravity than an inlet of the fourth communicating channel. 7. The heat exchanger according to claim 1 , wherein the first upper downstream-side flat tube is disposed lower in a direction of gravity than the second upper downstream-side flat tube, and the first lower downstream-side flat tube is disposed lower in the direction of gravity than the second lower downstream-side flat tube. 8. An air conditioner comprising: the heat exchanger according to claim 1 ; and a fan that supplies the air flow to the heat exchanger.