Heat exchanger

1 . A heat exchanger comprising: a plurality of flat tubes; a first header collecting pipe to which one end of each of the flat tubes is connected; a second header collecting pipe to which the other end of each of the flat tubes is connected; and a plurality of fins joined to the flat tubes, the heat exchanger being capable of functioning as an evaporator by exchanging heat between a refrigerant flowing in the flat tubes and air, wherein the first header collecting pipe and the second header collecting pipe stand upright, the first header collecting pipe is provided with one connection port to which a pipe is connected to guide a gas-liquid two-phase refrigerant into the first header collecting pipe, and the first header collecting pipe has main horizontal partition plates that define a plurality of communication chambers, each communicating with one or more of the flat tubes, by horizontally crossing an internal space of the first header collecting pipe, a vertical partition plate that defines a mixing chamber, communicating with the connection port and all of the communication chambers, by vertically running through the internal space of the first header collecting pipe, and an auxiliary horizontal partition plate that defines, along with the vertical partition plate, the mixing chamber by being disposed between the main horizontal partition plates, which are vertically adjacent to each other, and by horizontally crossing the internal space of the first header collecting pipe, and the mixing chamber is shorter in height than the communication chamber adjacent to the mixing chamber with the vertical partition plate interposed between the two chambers. 2 . (canceled) 3 . The heat exchanger of claim 1 , wherein the vertical partition plate is arranged opposite the flat tubes with respect to a central axis of the first header collecting pipe. 4 . The heat exchanger of claim 1 , wherein the mixing chamber is separated from the communication chambers by the vertical partition plate, one of the main horizontal partition plates which is arranged on one side of (that is either over or under) the mixing chamber, and the auxiliary horizontal partition plate arranged on the other side of (that is either under or over) the mixing chamber. 5 . The heat exchanger of claim 4 , wherein each of the vertical partition plate, the main horizontal partition plate, and the auxiliary horizontal partition plate which separate the mixing chamber from the communication chambers is provided with a communication through hole through which the refrigerant in the mixing chamber is distributed to the respective communication chambers at a predetermined ratio. 6 . The heat exchanger of claim 1 , wherein the mixing chamber is separated from the communication chambers by the vertical partition plate and a pair of auxiliary horizontal partition plates arranged one above the other with the mixing chamber interposed between themselves. 7 . The heat exchanger of claim 6 , wherein each of the pair of auxiliary horizontal partition plates and the vertical partition plate which separate the mixing chamber from the communication chambers is provided with a communication through hole through which the refrigerant in the mixing chamber is distributed to the respective communication chambers at a predetermined ratio. 8 . The heat exchanger of claim 1 , wherein the mixing chamber lies next to one or two of the communication chambers with the vertical partition plate interposed between the chambers. 9 . The heat exchanger of claim 1 , wherein the vertical partition plate is provided with a communication through hole through which the mixing chamber communicates with the communication chamber which lies next to the mixing chamber with the vertical partition plate interposed between the chambers. 10 . The heat exchanger of claim 9 , wherein the connection port is formed in a sidewall of the first header collecting pipe, and faces the vertical partition plate, and the communication through hole of the vertical partition plate is arranged so as not to face the connection port. 11 . The heat exchanger of claim 1 , wherein the heat exchanger is divided into a main heat exchange region and an auxiliary heat exchange region which each have at least two of the flat tubes, the auxiliary heat exchange region is arranged under the main heat exchange region, the auxiliary heat exchange region is divided into a plurality of auxiliary heat exchange portions, each of which has a plurality of flat tubes and is associated with one of the communication chambers, the flat tubes of the auxiliary heat exchange portions communicate with the communication chambers associated with the respective auxiliary heat exchange portions, the main heat exchange region is divided into a plurality of main heat exchange portions, each of which has a plurality of flat tubes and is associated with one of the auxiliary heat exchange portions, and the flat tubes of the main heat exchange portions communicate, through the second header collecting pipe, with the flat tubes of the auxiliary heat exchange portions associated with the main heat exchange portions. 12 . (canceled) 13 . The heat exchanger of claim 3 , wherein the mixing chamber is separated from the communication chambers by the vertical partition plate, one of the main horizontal partition plates which is arranged on one side of (that is either over or under) the mixing chamber, and the auxiliary horizontal partition plate arranged on the other side of (that is either under or over) the mixing chamber. 14 . The heat exchanger of claim 13 , wherein each of the vertical partition plate, the main horizontal partition plate, and the auxiliary horizontal partition plate which separate the mixing chamber from the communication chambers is provided with a communication through hole through which the refrigerant in the mixing chamber is distributed to the respective communication chambers at a predetermined ratio. 15 . The heat exchanger of claim 3 , wherein the mixing chamber is separated from the communication chambers by the vertical partition plate and a pair of auxiliary horizontal partition plates arranged one above the other with the mixing chamber interposed between themselves. 16 . The heat exchanger of claim 15 , wherein each of the pair of auxiliary horizontal partition plates and the vertical partition plate which separate the mixing chamber from the communication chambers is provided with a communication through hole through which the refrigerant in the mixing chamber is distributed to the respective communication chambers at a predetermined ratio. 17 . The heat exchanger of claim 3 , wherein the mixing chamber lies next to one or two of the communication chambers with the vertical partition plate interposed between the chambers. 18 . The heat exchanger of claim 3 , wherein the vertical partition plate is provided with a communication through hole through which the mixing chamber communicates with the communication chamber which lies next to the mixing chamber with the vertical partition plate interposed between the chambers. 19 . The heat exchanger of claim 18 , wherein the connection port is formed in a sidewall of the first header collecting pipe, and faces the vertical partition plate, and the communication through hole of the vertical partition plate is arranged so as not to face the connection port. 20 . The heat exchanger of claim 3 , wherein the he