Refrigerant-amount determining method and refrigerant-amount determining device

The invention claimed is: 1. A refrigerant-amount determining method for a refrigerant to be charged to a refrigeration apparatus including a refrigerant circuit in which a compressor, a condenser, a first expansion valve, an evaporator, a liquid-side connection pipe that feeds the refrigerant, which has passed through the condenser and then has been decompressed by the first expansion valve, to the evaporator, and a gas-side connection pipe that feeds the refrigerant, which has passed through the evaporator, to a suction side of the compressor, are connected to one another, the method comprising: determining a refrigerant amount of the refrigerant to be charged to the refrigerant circuit as a function of a length of the liquid-side connection pipe, wherein a refrigerant amount per unit length of the liquid-side connection pipe increases as the length of the liquid-side connection pipe increases. 2. The refrigerant-amount determining method according to claim 1 , wherein a correspondence in which a predetermined refrigerant reducing rate or a predetermined refrigerant charging rate corresponding to each predetermined length range or each predetermined length of the liquid-side connection pipe is indicated for each horsepower of the refrigeration apparatus is determined, and the refrigerant amount of the refrigerant to be charged to the refrigerant circuit is determined on the basis of the correspondence, the predetermined refrigerant reducing rate is a refrigerant reducing rate with reference to a refrigerant amount of a refrigerant charged to the liquid-side connection pipe in a case where the liquid-side connection pipe is filled with a liquid refrigerant, the predetermined refrigerant charging rate is a refrigerant charging rate with reference to the refrigerant amount of the refrigerant charged to the liquid-side connection pipe in the case where the liquid-side connection pipe is filled with the liquid refrigerant, and a refrigerant amount is obtained by performing a calculation according to a first equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(1−the predetermined refrigerant reducing rate), or a refrigerant amount is obtained by performing another calculation according to a second equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(the predetermined refrigerant charging rate), and a refrigerant amount per unit length of the obtained refrigerant amount is determined to increase as the length of the liquid-side connection pipe increases and the horsepower of the refrigeration apparatus increases. 3. The refrigerant-amount determining method according to claim 1 , wherein the refrigeration apparatus includes a liquid-side shutoff valve and a plurality of the evaporators that are connected in parallel with each other, the liquid-side connection pipe includes a liquid-side main pipe that extends from the liquid-side shutoff valve to a branch point located at an intermediate position of the liquid-side connection pipe, and branch pipes that are branched at the branch point and respectively extend to the plurality of evaporators, and the refrigerant amount is determined using the specific value corresponding to a length from the first expansion valve or the liquid-side shutoff valve to the branch point via the liquid-side main pipe, the number of the branch pipes, and lengths of a plurality of the branch pipes. 4. The refrigerant-amount determining method according to claim 3 , wherein the refrigerant amount is determined using a pipe diameter of the liquid-side connection pipe, the pipe diameter being determined in accordance with a horsepower of the refrigeration apparatus. 5. The refrigerant-amount determining method according to claim 3 , wherein a correspondence in which a predetermined refrigerant reducing rate or a predetermined refrigerant charging rate corresponding to each predetermined length range or each predetermined length of the liquid-side connection pipe is indicated for each horsepower of the refrigeration apparatus is determined, and the refrigerant amount of the refrigerant to be charged to the refrigerant circuit is determined on the basis of the correspondence, the predetermined refrigerant reducing rate is a refrigerant reducing rate with reference to a refrigerant amount of a refrigerant charged to the liquid-side connection pipe in a case where the liquid-side connection pipe is filled with a liquid refrigerant, the predetermined refrigerant charging rate is a refrigerant charging rate with reference to the refrigerant amount of the refrigerant charged to the liquid-side connection pipe in the case where the liquid-side connection pipe is filled with the liquid refrigerant, and a refrigerant amount is obtained by performing a calculation according to a first equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(1−the predetermined refrigerant reducing rate), or a refrigerant amount is obtained by performing another calculation according to a second equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(the predetermined refrigerant charging rate), and a refrigerant amount per unit length of the obtained refrigerant amount is determined to increase as the length of the liquid-side connection pipe increases and the horsepower of the refrigeration apparatus increases. 6. The refrigerant-amount determining method according to claim 1 , wherein the refrigerant amount is determined using a pipe diameter of the liquid-side connection pipe, the pipe diameter being determined in accordance with a horsepower of the refrigeration apparatus. 7. The refrigerant-amount determining method according to claim 6 , wherein a correspondence in which a predetermined refrigerant reducing rate or a predetermined refrigerant charging rate corresponding to each predetermined length range or each predetermined length of the liquid-side connection pipe is indicated for each horsepower of the refrigeration apparatus is determined, and the refrigerant amount of the refrigerant to be charged to the refrigerant circuit is determined on the basis of the correspondence, the predetermined refrigerant reducing rate is a refrigerant reducing rate with reference to a refrigerant amount of a refrigerant charged to the liquid-side connection pipe in a case where the liquid-side connection pipe is filled with a liquid refrigerant, the predetermined refrigerant charging rate is a refrigerant charging rate with reference to the refrigerant amount of the refrigerant charged to the liquid-side connection pipe in the case where the liquid-side connection pipe is filled with the liquid refrigerant, and a refrigerant amount is obtained by performing a calculation according to a first equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(1−the predetermined refrigerant reducing rate), or a refrigerant amount is obtained by performing another calculation according to a second equation of the refrigerant amount is equal to (the refrigerant amount in the case of the filling with the liquid refrigerant)×(the predetermined refrigerant charging rate), and a refrigerant amount per unit length of the obtained refrigerant amount is determined to increase as the length of the liquid-side connection pipe increases and the horsepower of the refrigeration apparatus increases. 8. A refrigerant-amount determining device for a refrigerant to be charged to a refrigeration apparatus including a refrigerant circuit i