Evaporator

What is claimed is: 1. An evaporator comprising: a plurality of refrigerant tubes each of which extends in a vertical direction and has a refrigerant passage, the tubes being disposed parallel to each other; a plurality of air passages provided between the refrigerant tubes; at least one cold storage container disposed in a subset of air passages of the plurality of air passages and containing a cold storage material; a fin disposed in another subset of air passages of the plurality of air passages; a temperature detector that detects a temperature; and a freezing allowable region in which freezing of condensed water is allowed, and a freezing unallowable region in which the freezing of condensed water is prevented by an ON-OFF control of a compressor based on the temperature detected by the temperature detector, the freezing unallowable region being provided on an upper side of the freezing allowable region, wherein the cold storage container includes a first region that defines a space with the refrigerant tubes for promoting of drainage of the condensed water, and a second region that is positioned on an upper side of the first region and defines a smaller space with the refrigerant tubes than the space defined by the first region, the first region of the cold storage container is positioned within the freezing allowable region, the second region of the cold storage container is positioned within the freezing unallowable region, and the temperature detector is disposed in the freezing allowable region. 2. The evaporator according to claim 1 , wherein the cold storage container includes a largest thickness portion having a thickness equal to a distance between the refrigerant tubes and fixed to the refrigerant tubes, and another portion that defines a space together with the refrigerant tubes, the air flowing through the space defined between the other portion and the refrigeration tubes, and a ratio of the other portion to the largest thickness portion in the first region is higher than a ratio of the other portion to the largest thickness portion in the second region. 3. The evaporator according to claim 1 , further comprising a heat exchange fin disposed in another part of the air passages, wherein the temperature detector detects a temperature of the heat exchange fin. 4. The evaporator according to claim 1 , wherein the temperature detector detects a temperature of a surface of the refrigerant tubes. 5. The evaporator according to claim 1 , wherein the temperature detector detects a temperature of a surface of the cold storage container. 6. The evaporator according to claim 1 , wherein the temperature detector detects a temperature of air in the air passages. 7. The evaporator according to claim 1 , wherein the temperature detector detects a temperature of air immediately downstream of an outlet of the air passages. 8. An evaporator comprising: a plurality of refrigerant tubes having refrigerant passages and disposed parallel to each other to extend in a vertical direction; a plurality of air passages provided between the refrigerant tubes; at least one cold storage container disposed between the refrigerant tubes and accommodating a cold storage material therein; and a temperature detector that detects an air temperature downstream of the air passages or a temperature corresponding to a temperature of a refrigerant passing through insides of the refrigerant tubes, wherein the cold storage container includes: a largest thickness portion contacting the refrigerant tubes and having a thickness equal to a distance between the refrigerant tubes; a first region defining a space with the refrigerant tubes; a second region defining a space with the refrigerant tubes and having a cross-sectional area in a direction perpendicular to a longitudinal direction of the refrigerant tubes, the cross-sectional area being larger than that of the first region, and the temperature detector is disposed lower than the second region; wherein the first region is positioned within a freezing allowable region, and the second region is positioned within a freezing unallowable region in which freezing of condensed water is prevented by an ON-OFF control of a compressor based on the temperature detected by the temperature detector. 9. The evaporator according to claim 8 , wherein a fin is disposed in the air passages, and the temperature detector is attached to an air flow downstream side of the fin. 10. The evaporator according to claim 8 , wherein the temperature detector is attached to the cold storage container. 11. The evaporator according to claim 8 , wherein the temperature detector is attached to at least one of the refrigerant tubes.