Heat exchanger

The invention claimed is: 1. A heat exchanger, comprising: a plurality of flat tubes, each flat tube having a first end and a second end; a first header collecting pipe connected to first ends of the flat tubes; a second header collecting pipe connected to second ends of the flat tubes; and a plurality of fins joined to the flat tubes, wherein the heat exchanger is configured to exchange heat between fluid flowing through each flat tube and air flowing outside the each flat tube, and is capable of functioning as an evaporator, the first header collecting pipe and the second header collecting pipe are in a vertical orientation, the first header collecting pipe includes a side wall extending parallel to an axial direction of the first header collecting pipe, a connection port connected to a pipe through which refrigerant flows and formed in said side wall, a mixing chamber communicating with the connection port and configured to mix liquid refrigerant and gas refrigerant of gas-liquid refrigerant flowing into the mixing chamber through the connection port to homogenize the gas-liquid refrigerant, a plurality of communication chambers arranged in a vertical direction and each communicating with one or more of the flat tubes, a plurality of distribution paths configured to distribute the homogenized refrigerant of the mixing chamber to the communication chambers, a vertical partition provided along the axial direction of the first header collecting pipe and configured to separate at least one of the communication chambers from the mixing chamber, and a horizontal partition provided so as to intersect the axial direction of the first header collecting pipe and configured to separate the communication chambers adjacent to each other in the vertical direction from each other, the connection port faces the vertical partition, the communication chambers of the first header collecting pipe include three or more communication chambers, the horizontal partition includes an upper horizontal partition configured to separate a first part of an uppermost one of the communication chambers from an adjacent one of the communication chambers and to separate a second part of the uppermost communication chamber from the mixing chamber, and a lower horizontal partition configured to separate a first part of a lowermost one of the communication chambers from an adjacent one of the communication chambers and to separate a second part of the lowermost communication chamber from the mixing chamber, the vertical partition is configured to separate the mixing chamber from one or more of the communication chambers positioned between the upper horizontal partition and the lower horizontal partition, and respective walls of the mixing chamber are formed by portions of the vertical partition, the upper horizontal partition, the lower horizontal partition, and the side wall of the first header collecting pipe. 2. The heat exchanger of claim 1 , wherein a through-hole for communication is formed in the vertical partition such that the at least one communication chamber positioned between the upper horizontal partition and the lower horizontal partition communicates with the mixing chamber, a through-hole for communication is formed in the upper horizontal partition such that the uppermost one of the communication chambers communicates with the mixing chamber, a through-hole for communication is formed in the lower horizontal partition such that the lowermost one of the communication chambers communicates with the mixing chamber, and the through-hole of the vertical partition, the through-hole of the upper horizontal partition, and the through-hole of the lower horizontal partition form the distribution paths. 3. The heat exchanger of claim 2 , wherein the through-hole of the vertical partition is formed so as not to face the connection port. 4. The heat exchanger of claim 1 , wherein a distance from the vertical partition to the connection port is smaller than a distance from the connection port to a center axis of the first header collecting pipe. 5. The heat exchanger of claim 1 , wherein the first header collecting pipe further includes a cylindrical body member to which the upper horizontal partition and the lower horizontal partition are attached and in which the communication chambers and the mixing chamber are formed, the body member is formed with an upper insertion hole into which the upper horizontal partition is inserted from outside of the body member, and a lower insertion hole into which the lower horizontal partition is inserted from the outside of the body member, the upper insertion hole and the lower insertion hole are different from each other in shapes, in the upper horizontal partition, a sealing part formed in a shape corresponding to the upper insertion hole and closing the upper insertion hole is formed, and in the lower horizontal partition, a sealing part formed in a shape corresponding to the lower insertion hole and closing the lower insertion hole is formed. 6. The heat exchanger of claim 1 , wherein the vertical partition faces end surfaces of the flat tubes connected to the first header collecting pipe. 7. The heat exchanger of claim 1 , further comprising: a tubular member attached to the first header collecting pipe and connected to the connection port, wherein a pipe through which refrigerant flows is connected to the connection port through the tubular member, and the tubular member is in such a shape that an end part of the tubular member connected to the connection port is narrowed. 8. The heat exchanger of claim 1 , wherein the heat exchanger is divided into a main heat exchange region including some of the flat tubes and an auxiliary heat exchange region including the remaining flat tubes, the auxiliary heat exchange region is positioned below the main heat exchange region, the auxiliary heat exchange region is divided into a plurality of auxiliary heat exchange parts each auxiliary heat exchange part including multiple ones of the remaining flat tubes and each auxiliary heat exchange part corresponding to one of the communication chambers, the flat tubes in each auxiliary heat exchange part communicate with a corresponding one of the communication chambers, the main heat exchange region is divided into a plurality of main heat exchange parts each main heat exchange part including multiple ones of the some of the flat tubes and each main heat exchange part corresponding to one of the auxiliary heat exchange parts, and the flat tubes in each main heat exchange part communicate, through the second header collecting pipe, with the flat tubes in a corresponding one of the auxiliary heat exchange parts. 9. The heat exchanger of claim 3 , wherein a distance from the vertical partition to the connection port is smaller than a distance from the connection port to a center axis of the first header collecting pipe. 10. The heat exchanger of claim 2 , wherein the vertical partition faces end surfaces of the flat tubes connected to the first header collecting pipe.