Refrigeration apparatus

The invention claimed is: 1. A refrigeration apparatus comprising: a cooling heat exchanger for cooling an interior; a fan mechanism that generates a flow of air for cooling the cooling heat exchanger; a compressor that compresses a refrigerant; a refrigerant circuit to which the cooling heat exchanger and the compressor are connected and which is for performing a refrigeration cycle with the refrigerant that is circulated; a humidity detection unit that detects a humidity of interior air; a temperature detection unit that detects a temperature of interior air; and a control unit that performs normal operation control for controlling drive of the fan mechanism and the compressor in order to bring an interior temperature detected by the temperature detection unit to a target temperature-dehumidification control for adjusting a humidity detected by the humidity detection unit to a predetermined target range of a high-humidity region, and a power-saving control which is implemented by the control of drive of the fan mechanism and the compressor such that a change in the interior temperature within a temperature range is tolerated, the temperature range being based on the target temperature, wherein the target range of the high-humidity region includes a target humidity of an interior air, an upper limit value that is higher than the target humidity, and a lower limit value that is lower than the target humidity, the control unit does not switch from the dehumidification control to the power-saving control in a time point at which a humidity detected by the humidity detection unit has become the lower limit value of the target range of the high-humidity region or less at a time of the dehumidification control, the control unit performs switching from the dehumidification control to the power-saving control in a case where a predetermined time is passed from the time point. 2. The refrigeration apparatus according to claim 1 , wherein the target range of the high-humidity region is set to include a humidity of 90%. 3. The refrigeration apparatus according to claim 1 , further comprising a target humidity acceptance unit that accepts a setting of the target humidity of the high-humidity region, wherein the control unit performs switching from the dehumidification control to the power-saving control using the target range of the high-humidity region that is set in such a way as to include the target humidity of the high-humidity region accepted by the target humidity acceptance unit. 4. The refrigeration apparatus according to claim 1 , wherein the power-saving control by the control unit includes a first operation in which the compressor is driven while adjusting a cooling performance of the cooling heat exchanger, a second operation in which a cooling performance of the cooling heat exchanger is enhanced when the interior temperature reaches the target temperature during the first operation and the compressor is stopped when the interior temperature is reduced to a lower limit value of a target range including the target temperature, and a third operation in which the compressor is activated when the interior temperature reaches an upper limit value of the target range after stoppage of the compressor by the second operation.