Heat exchange apparatus and air conditioner using same

The invention claimed is: 1. A heat exchange apparatus comprising: a heat-transfer pipe through which a refrigerant flows; a heat exchanger, exchanging heat between air and the refrigerant, in which a plurality of the heat-transfer pipes are connected to one another; a distributor that distributes the refrigerant to the plurality of heat-transfer pipes; an inflow pipe that causes gas-liquid two-phase refrigerant to flow into the distributor; and a confluent pipe which is connected to an intermediate position of the inflow pipe and in which gas-liquid two-phase refrigerant flowing through an inside thereof is to merge with the refrigerant flowing through an inside of the inflow pipe, wherein a merging part between the inflow pipe and the confluent pipe is positioned in a range of 4≤Lf/D 1 ≤7, where Lf is a distance between the merging part and the distributor and D 1 is a pipe inner diameter of the merging part, and wherein the confluent pipe is connected to the inflow pipe so that both gas-liquid two-phase flows merge to become a gas-liquid mixed spray flow. 2. A heat exchange apparatus comprising: a heat-transfer pipe through which a refrigerant flows; a heat exchanger, exchanging heat between air and the refrigerant, in which a plurality of the heat-transfer pipes are connected to one another; a distributor that distributes the refrigerant to the plurality of heat-transfer pipes; an inflow pipe that causes the refrigerant to flow into the distributor; and a confluent pipe which is connected to an intermediate position of the inflow pipe and in which the refrigerant flowing through an inside thereof is to merge with the refrigerant flowing through an inside of the inflow pipe, wherein a merging part between the inflow pipe and the confluent pipe is positioned in a range of 4≤Lf/D 1 ≤7, where Lf is a distance between the merging part and the distributor and D 1 is a pipe inner diameter of the merging part, and wherein a pipe inner diameter of the merging part is larger than each of pipe inner diameters of the confluent pipe and the inflow pipe before the merging occurs. 3. The heat exchange apparatus according to claim 1 , wherein the refrigerant contains 70% by weight or higher of R32, and wherein the distance Lf between the merging part and the distributor is six times or less than the pipe inner diameter D 1 of the merging part. 4. The heat exchange apparatus according to claim 1 , wherein the distance Lf between the merging part and the distributor is four times or greater than the pipe inner diameter D 1 of the merging part. 5. The heat exchange apparatus according to claim 1 , further comprising: an expansion valve that is provided in a refrigerant flow path and reduces pressure of the refrigerant; and a branch portion in which the refrigerant flowing out from the expansion valve branches, wherein the heat exchanger has a first subcooler through which the refrigerant branching from the branch portion flows, and wherein the refrigerant branched merges in the merging part. 6. The heat exchange apparatus according to claim 5 , wherein the heat exchanger further has a second subcooler through which the refrigerant flows in front of the expansion valve. 7. The heat exchange apparatus according to claim 1 , wherein a relationship between the distance Lf between the merging part and the distributor, a pipe inner diameter D 1 of the merging part, and a mass velocity G [kg/(m2s)] of the refrigerant is Lf/D 1 is less than or equal to 1.2*G 0.36 . 8. An air conditioner comprising: a compressor; an outdoor heat exchanging unit; and an indoor heat exchanging unit, wherein at least one of the outdoor heat exchanging unit and the indoor heat exchanging unit includes the heat exchange apparatus according to claim 1 .