Stacking-type header, heat exchanger, and air-conditioning apparatus

The invention claimed is: 1. A stacking-type header, comprising: a first plate-shaped unit having a plurality of first outlet flow passages formed therein; and a second plate-shaped unit being mounted on the first plate-shaped unit and having a first inlet flow passage formed therein and a distribution flow passage formed therein, the distribution flow passage being configured to distribute refrigerant, which passes through the first inlet flow passage to flow into the second plate-shaped unit, to the plurality of first outlet flow passages to cause the refrigerant to flow out from the second plate-shaped unit, wherein the distribution flow passage comprises at least one branching flow passage, wherein the second plate-shaped unit comprises at least one plate-shaped member having a groove formed as a flow passage, the groove having at least one branching portion for branching one branch part into two branch parts, wherein the one branch part extends straight, wherein the two branch parts extend straight in directions opposite to each other and perpendicular to a straight line part of the one branch part, wherein the at least one branching flow passage is formed by closing a region in the groove other than a refrigerant inflow region and a refrigerant outflow region, wherein at least part of the refrigerant flowing into the at least one branching flow passage first passes through the one branch part and then branches at the two branch parts into a first flow, which passes through a first one of the two branch parts, and a second flow, which passes through a second one of the two branch parts, wherein the first flow and the second flow each flow out into mutually different flow passages of the plurality of first outlet flow passages, wherein the straight line part of the one branch part is parallel to a gravity direction, wherein the first plate-shaped unit has a plurality of second inlet flow passages formed therein, and wherein the second plate-shaped unit has a joining flow passage formed therein, the joining flow passage being configured to join together flows of the refrigerant, which pass through the plurality of second inlet flow passages to flow into the second plate-shaped unit, to cause the refrigerant to flow into a second outlet flow passage. 2. The stacking-type header of claim 1 , wherein a distance of the one branch part extending straight is three times or more as large as a hydraulic equivalent diameter of the one branch part. 3. The stacking-type header of claim 1 , wherein a distance of each of the two branch parts extending straight is one time or more as large as a hydraulic equivalent diameter of the each of the two branch parts. 4. The stacking-type header of claim 1 , wherein an array direction of the end portions of the groove is directed along an array direction of the plurality of first outlet flow passages. 5. The stacking-type header of claim 4 , wherein the array direction of the plurality of first outlet flow passages intersects with the gravity direction. 6. The stacking-type header of claim 1 , wherein the groove comprises a plurality of grooves. 7. The stacking-type header of claim 1 , wherein the first plate-shaped unit has a plurality of turn-back flow passages formed therein, the plurality of turn-back flow passages being configured to turn back the refrigerant flowing into the first plate-shaped unit to cause the refrigerant to flow out from the first plate-shaped unit. 8. The stacking-type header of claim 1 , wherein the at least part of the refrigerant branched by flowing into the at least one branching flow passage flows into the one branch part. 9. A heat exchanger, comprising a stacking-type header, wherein the stacking-type header comprises: a first plate-shaped unit having a plurality of first outlet flow passages formed therein; and a second plate-shaped unit being mounted on the first plate-shaped unit and having a first inlet flow passage formed therein and a distribution flow passage formed therein, the distribution flow passage being configured to distribute refrigerant, which passes through the first inlet flow passage to flow into the second plate-shaped unit, to the plurality of first outlet flow passages to cause the refrigerant to flow out from the second plate-shaped unit, wherein the distribution flow passage comprises at least one branching flow passage, wherein the second plate-shaped unit comprises at least one plate-shaped member having a groove formed as a flow passage, the groove having at least one branching portion for branching one branch part into two branch parts, wherein the one branch part extends straight, wherein the two branch parts extend straight in directions opposite to each other and perpendicular to a straight line part of the one branch part, wherein the at least one branching flow passage is formed by closing a region in the groove other than a refrigerant inflow region and a refrigerant outflow region, wherein at least part of the refrigerant flowing into the at least one branching flow passage first passes through the one branch part and then branches at the two branch parts into a first flow, which passes through a first one of the two branch parts, and a second flow, which passes through a second one of the two branch parts, wherein the first flow and the second flow each flow out into mutually different flow passages of the plurality of first outlet flow passages, wherein the straight line part of the one branch part is parallel to a gravity direction, and wherein the heat exchanger further comprises a plurality of first heat transfer tubes connected to the plurality of first outlet flow passages, respectively, wherein the first plate-shaped unit has a plurality of second inlet flow passages formed therein, into which the refrigerant passing through the plurality of first heat transfer tubes flows, and wherein the second plate-shaped unit has a joining flow passage formed therein, the joining flow passage being configured to join together flows of the refrigerant, which pass through the plurality of second inlet flow passages to flow into the second plate-shaped unit, to cause the refrigerant to flow into a second outlet flow passage. 10. The heat exchanger of claim 9 , wherein the first heat transfer tubes each comprise a flat tube. 11. An air-conditioning apparatus, comprising the heat exchanger of claim 9 , wherein the distribution flow passage is configured to cause the refrigerant to flow out from the distribution flow passage toward the plurality of first outlet flow passages when the heat exchanger acts as an evaporator. 12. An air-conditioning apparatus, comprising a heat exchanger, wherein the heat exchanger comprises a stacking-type header, and wherein the stacking-type header comprises: a first plate-shaped unit having a plurality of first outlet flow passages formed therein; and a second plate-shaped unit being mounted on the first plate-shaped unit and having a first inlet flow passage formed therein and a distribution flow passage formed therein, the distribution flow passage being configured to distribute refrigerant, which passes through the first inlet flow passage to flow into the second plate-shaped unit, to the plurality of first outlet flow passages to cause the refrigerant to flow out from the second plate-shaped unit, wherein the distribution flow passage comprises at least one branching flow passage, wherein the second plate-shaped unit comprises at least one plate-shaped member having a groove formed as a flow passage, the groove having at least one branching portion for branching one branch part into two branch parts, wherein the one branch p