Estimation apparatus of heat transfer medium flow rate, heat source machine, and estimation method of heat transfer medium flow rate

The invention claimed is: 1. A heat-source unit comprising: a compressor that compresses a refrigerant; a condenser that condenses the compressed refrigerant by means of a heat-source medium; an evaporator that evaporates the condensed refrigerant and also performs heat exchange between the refrigerant and a heat transfer medium; an expansion valve that allows liquid-phase refrigerant retained in the condenser to expand; and a heat transfer medium flow rate estimating device that estimates a flow rate of a heat transfer medium of a heat-source unit provided with a compressor that compresses a refrigerant, a condenser that condenses the compressed refrigerant by means of a heat-source medium, an evaporator that evaporates the condensed refrigerant and also performs heat exchange between this refrigerant and the heat transfer medium, and an expansion valve that allows liquid-phase refrigerant retained in the condenser to expand, the heat transfer medium flow rate estimating device comprising: a refrigerant-flow-rate calculating portion that calculates a heat quantity exchanged between the refrigerant and the heat transfer medium at the evaporator based on a planned value of the flow rate of the heat transfer medium and a measured value of the temperature of the heat transfer medium flowing in the evaporator, and that calculates the flow rate of the refrigerant flowing in the evaporator from the heat quantity; and a heat-transfer-medium-flow-rate back-calculating portion that back-calculates the flow rate of the refrigerant flowing in the evaporator based on the flow rate of the refrigerant calculated by the refrigerant-flow-rate calculating portion and a ratio between a set value of the differential pressure between the condenser and the evaporator and a measured value of the differential pressure, that back-calculates a heat quantity exchanged between the refrigerant and the heat transfer medium at the evaporator from the back-calculated flow rate of the refrigerant, and that back-calculates the flow rate of the heat transfer medium based on the back-calculated heat quantity and the measured value of the temperature of the heat transfer medium flowing in the evaporator, wherein updating processing for updating a planned value of the flow rate of the heat transfer medium is performed based on the flow rate of the heat transfer medium that is back-calculated by the heat-transfer-medium-flow-rate back-calculating portion; the flow rate of the refrigerant is calculated by the refrigerant-flow-rate calculating portion based on an updated planned value; and the degree-of-opening of the expansion valve is controlled in accordance with the calculated flow rate of the refrigerant. 2. A heat-source unit according to claim 1 , wherein, in the updating processing, the planned value of the flow rate of the heat transfer medium is updated so as to be at an internal division point between the planned value of the flow rate of the heat transfer medium and the flow rate of the heat transfer medium that is back-calculated by the heat-transfer-medium-flow-rate back-calculating portion. 3. A heat-source unit according to claim 1 , wherein the updating processing is performed when a state of deviation between the planned value of the flow rate of the heat transfer medium and the flow rate of the heat transfer medium that is back-calculated by the heat-transfer-medium-flow-rate back-calculating portion matches a state of a phenomenon occurring in the unit. 4. A heat-source unit according to claim 1 , wherein the updating processing is performed when a difference between a motor power input of the compressor determined from a theoretical value of the coefficient of performance of the heat-source unit and a measured value of the motor power input of the compressor is equal to or greater than a predetermined value. 5. A heat-source unit according to claim 1 , wherein the updating processing is performed when a difference between a heat-transfer-medium load and a load determined from a current flowing in a motor that drives the compressor is equal to or greater than a predetermined value. 6. A heat-source unit according to claim 1 , wherein the updating processing is performed when a difference between a temperature at which the heat transfer medium flows out of the evaporator and a saturation temperature inside the evaporator or a difference between a temperature at which the heat-source medium flows out of the condenser and a saturation temperature inside the condenser does not fall within a predetermined range.