Refrigeration-type chiller

1 . A refrigeration-type chiller comprising: a coolant circuit that supplies a temperature-regulated coolant to a load; a refrigeration circuit that adjusts a temperature of the coolant through a heat exchange between the coolant and a refrigerant; a heat exchanger that exchanges heat between the coolant and the refrigerant; and a control unit that controls the chiller as a whole, wherein the coolant circuit includes a tank in which the coolant is stored, a pump that supplies the coolant in the tank to the load, and a temperature sensor that measures the temperature of the coolant, and the control unit includes a temperature setting unit that sets an initial set temperature and an adjustment target temperature of the coolant for changing a temperature of the load to a target temperature, a time setting unit that sets an adjustment time for changing the temperature of the coolant from the initial set temperature to the adjustment target temperature, an arithmetic unit that calculates a gradient of temperature change as a target temperature gradient from the initial set temperature, the adjustment target temperature, and the adjustment time, and a temperature control unit that so adjusts a temperature of the refrigerant that is supplied to the heat exchanger that the temperature of the coolant changes in accordance with the target temperature gradient. 2 . The refrigeration-type chiller according to claim 1 , wherein the refrigeration circuit includes a compressor that compresses the refrigerant, a condenser that cools a high-temperature refrigerant discharged from the compressor, a first electronic expansion valve that sends to the heat exchanger a low-temperature refrigerant sent from the condenser, and a second electronic expansion valve that sends to the heat exchanger the high-temperature refrigerant discharged from the compressor, and the control unit divides the adjustment time into a plurality of time domains, calculates for each time domain a current target temperature in that time domain from the target temperature gradient and a time elapsed in the time domain, compares with the current target temperature a current temperature of the coolant as measured by the temperature sensor, adjusts opening degrees of the first and second electronic expansion valves on the basis of a comparison result, and thereby adjusts the temperature of the refrigerant that is supplied to the heat exchanger. 3 . A refrigeration-type chiller comprising: a coolant circuit that supplies a temperature-regulated coolant to a load; a refrigeration circuit that adjusts a temperature of the coolant through a heat exchange between the coolant and a refrigerant; a heat exchanger that exchanges heat between the coolant and the refrigerant; and a control unit that controls the chiller as a whole, wherein the coolant circuit includes a tank in which the coolant is stored, a pump that supplies the coolant in the tank to the load, and a load temperature sensor that measures a temperature of the load, and the control unit includes a temperature setting unit that sets an initial set temperature and an adjustment target temperature of the load, a time setting unit that sets an adjustment time for changing the temperature of the load from the initial set temperature to the adjustment target temperature, an arithmetic unit that calculates a gradient of temperature change as a target temperature gradient from the initial set temperature, the adjustment target temperature, and the adjustment time, and a temperature control unit that changes the temperature of the coolant by so adjusting a temperature of the refrigerant that is supplied to the heat exchanger that the temperature of the load changes in accordance with the target temperature gradient. 4 . The refrigeration-type chiller according to claim 3 , wherein the refrigeration circuit includes a compressor that compresses the refrigerant, a condenser that cools a high-temperature refrigerant discharged from the compressor, a first electronic expansion valve that sends to the heat exchanger a low-temperature refrigerant sent from the condenser, and a second electronic expansion valve that sends to the heat exchanger the high-temperature refrigerant discharged from the compressor, and the control unit divides the adjustment time into a plurality of time domains, calculates for each time domain a current target temperature in that time domain from the target temperature gradient and a time elapsed in the time domain, compares with the current target temperature a current temperature of the load as measured by the load temperature sensor, adjusts opening degrees of the first and second electronic expansion valves on the basis of a comparison result, and thereby adjusts the temperature of the refrigerant that is supplied to the heat exchanger.