Constant-temperature liquid circulation apparatus and operation method thereof

The invention claimed is: 1. A constant-temperature liquid circulation apparatus comprising: a constant-temperature liquid circuit supplying a temperature-adjusted constant-temperature liquid to a load; a refrigeration circuit adjusting a temperature of the constant-temperature liquid by heat exchange of the constant-temperature liquid with a refrigerant; and a controller controlling the entire apparatus, wherein the refrigeration circuit includes: a compressor compressing a gaseous refrigerant to change the refrigerant into a high-temperature and high-pressure gaseous refrigerant; an air-cooling condenser cooling the high-temperature and high-pressure gaseous refrigerant sent from the compressor to change the refrigerant into a high-pressure liquid refrigerant; a fan forcing cooling air to flow into the condenser; an expansion valve expanding the high-pressure liquid refrigerant sent from the condenser to change the refrigerant into a low-temperature and low-pressure liquid refrigerant; an evaporator evaporating the low-temperature and low-pressure liquid refrigerant sent from the expansion valve by heat exchange with the constant-temperature liquid to change the refrigerant into a low-pressure gaseous refrigerant, thereby sending the low-pressure gaseous refrigerant to the compressor; and a pressure sensor measuring an inlet-side refrigerant pressure of the expansion valve, and wherein the controller is configured to perform control such that the fan is not activated, or is activated to maintain a minimum rotation speed when a refrigerant pressure measured by the pressure sensor does not reach a reference pressure region after the compressor is activated, control the refrigerant pressure by performing inverter control on a rotation speed of the fan when the refrigerant pressure reaches the reference pressure region, and control a rotation speed of the compressor to be reduced from a high rotation speed which is a rotation speed during a steady operation while maintaining the rotation speed of the fan at a maximum rotation speed when the refrigerant pressure continues to further rise and reaches an upper limit value after a rotation of the compressor reaches the high rotation speed which is a rotation speed during a steady state operation and the rotation speed of the fan reaches the maximum rotation speed. 2. The constant-temperature liquid circulation apparatus according to claim 1 , wherein the controller reduces the rotation speed of the compressor from the high rotation speed to a low rotation speed at which a refrigerant pressure becomes constant near the upper limit value when the refrigerant pressure reaches the upper limit value. 3. An operation method of a constant-temperature liquid circulation apparatus, in which the constant-temperature liquid circulation apparatus includes: a constant-temperature liquid circuit supplying a temperature-adjusted constant-temperature liquid to a load; and a refrigeration circuit adjusting a temperature of the constant-temperature liquid by heat exchange of the constant-temperature liquid with a refrigerant, the refrigeration circuit including: a compressor compressing a gaseous refrigerant to change the refrigerant into a high-temperature and high-pressure gaseous refrigerant; an air-cooling condenser cooling the high-temperature and high-pressure gaseous refrigerant sent from the compressor to change the refrigerant into a high-pressure liquid refrigerant; a fan forcing cooling air to flow into the condenser; an expansion valve expanding the high-pressure liquid refrigerant sent from the condenser to change the refrigerant into a low-temperature and low-pressure liquid refrigerant; an evaporator evaporating the low-temperature and low-pressure liquid refrigerant sent from the expansion valve by heat exchange with the constant-temperature liquid to change the refrigerant into a low-pressure gaseous refrigerant, thereby sending the low-pressure gaseous refrigerant to the compressor; and a pressure sensor measuring an inlet-side refrigerant pressure of the expansion valve, wherein the method comprising: performing control such that the fan is not activated, or is activated to maintain a minimum rotation speed when a refrigerant pressure measured by the pressure sensor does not reach a reference pressure region after the compressor is activated; controlling the refrigerant pressure by performing inverter control on a rotation speed of the fan when the refrigerant pressure reaches the reference pressure region; and controlling a rotation speed of the compressor to be reduced from a high rotation speed which is a rotation speed during a steady operation while maintaining the rotation speed of the fan at a maximum rotation speed when the refrigerant pressure continues to further rise and reaches an upper limit value after a rotation of the compressor reaches the high rotation speed which is a rotation speed during a steady state operation and the rotation speed of the fan reaches the maximum rotation speed. 4. The operation method of the constant-temperature liquid circulation apparatus according to claim 3 , further comprising: reducing the rotation speed of the compressor from the high rotation speed to a low rotation speed at which a refrigerant pressure becomes constant near the upper limit value when the refrigerant pressure reaches the upper limit value.