Refrigerant charging device, refrigeration device and refrigerant charging method

The invention claimed is: 1. A refrigerant charging device which supplies refrigerant to a refrigerant circuit via a supply pipe, the refrigerant charging device comprising: a supply pipe connectable to refrigerant piping on a suction side of a compression mechanism in the refrigerant circuit; outdoor air temperature detection portion that detects outdoor air temperature; a pressure detection portion that detects refrigerant pressure on the suction side of the compression mechanism; and an adjustment portion including an electric valve provided in the supply pipe, and a flow rate control unit that derives a pressure difference between a pressure of the refrigerant to be supplied to the supply pipe as a saturation pressure corresponding to the outdoor air temperature and the detected refrigerant pressure on the suction side of the compression mechanism, derives a degree of opening of the electric valve at which a refrigerant flow rate in the supply pipe is substantially constant with respect to the derived pressure difference so as to increase the degree of opening of the electric valve as the pressure difference decreases using previously stored data that maps pressure difference between the pressure of the refrigerant to be supplied to the supply pipe and the refrigerant pressure on the suction side of the compression mechanism to Cv values of the electric valve, and adjusts a flow rate in the supply pipe to be within a predetermined range by adjusting the degree of opening of the electric valve to the derived degree of the opening of the electric valve. 2. The refrigerant charging device according to claim 1 , further comprising a correction control unit for correcting the degree of opening of the electric valve, controlled by the flow rate control unit, such that superheat of refrigerant on the discharge side of the compression mechanism becomes equal to or greater than a predetermined value. 3. The refrigerant charging device according to claim 2 , wherein the correction control unit increases the degree of opening of the electric valve when the superheat of the refrigerant on the discharge side of the compression mechanism reaches an upper limit equal to or greater than the predetermined value. 4. The refrigerant charging device according to claim 2 , wherein the superheat of the refrigerant on the discharge side of the compression mechanism is derived from refrigerant temperature and a saturation temperature corresponding to refrigerant pressure on the discharge side of the compression mechanism. 5. The refrigerant charging device according to claim 1 , further comprising a charging completion control unit that closes the electric valve when a predetermined amount of refrigerant is supplied via the supply pipe. 6. A refrigeration device comprising: a refrigerant circuit in which refrigerant circulates between a compression mechanism, a condenser, an expansion mechanism and an evaporator; and the refrigerant charging device according to claim 1 , wherein the supply pipe of the refrigerant charging device is connected to refrigerant piping between the compression mechanism and the evaporator. 7. A refrigerant charging method for charging refrigerant via a supply pipe that is connected to refrigerant piping on a suction side of a compression mechanism in a refrigerant circuit while adjusting an opening of an electric valve provided in the supply pipe, the method comprising: detecting a refrigerant pressure on the suction side of the compression mechanism by a pressure detecting portion; estimating a pressure of the refrigerant supplied to the supply pipe by deriving a saturation pressure corresponding to an outdoor air temperature detected by an outdoor air temperature detection portion; deriving a pressure difference between the pressure of the refrigerant to be supplied to the supply pipe and the detected refrigerant pressure on the suction side of the compression mechanism; deriving a degree of opening of the electric valve at which a refrigerant flow rate in the supply pipe is substantially constant with respect to the derived pressure difference so as to increase the degree of opening of the electric valve as the pressure difference decreases using previously stored data that maps pressure difference between the pressure of the refrigerant to be supplied to the supply pipe and the refrigerant pressure on the suction side of the compressor to Cv values of the electric valve; and supplying the refrigerant to the refrigerant circuit while adjusting a flow rate in the supply pipe to be within a predetermined range by adjusting the degree of opening of the electric valve to the derived degree of the opening of the electric valve. 8. The refrigerant charging method according to claim 7 , further comprising: correcting the derived degree of opening of the electric valve such that superheat of the refrigerant on the discharge side of a compression mechanism is equal to or greater than a predetermined value. 9. The refrigerant charging method according to claim 8 , wherein the degree of opening of the electric valve is increased when the superheat of the refrigerant on the discharge side of the compression mechanism reaches an upper limit equal to or greater than the predetermined value. 10. The refrigerant charging method according to claim 7 , further comprising: closing the electric valve when a predetermined amount of refrigerant is supplied to the refrigerant circuit via the supply pipe.