Liquid lifting device and liquid lifting method

The invention claimed is: 1. A liquid lifting device comprising: a liquid supply section in which liquid is stored; a tank provided at a position which is higher than the liquid supply section; a liquid lifting pipe of which one end is inserted into the liquid stored in the liquid supply section and the other end is connected to the tank; an air pump configured to depressurize an interior of the tank and an interior of the liquid lifting pipe, wherein the air pump includes a suction inlet and a discharge outlet communicating with each other when the air pump is not driven; an air supply pipe of which one end portion is connected to the liquid lifting pipe via a branching section at a position halfway in the liquid lifting pipe, wherein an upright section is provided in the other end portion of the air supply pipe while the upright section stands upright from the one end portion; and an air valve provided in the other end portion of the air supply pipe and configured to open/close with respect to the outside air, wherein a height from a liquid surface in the liquid supply section to the other end of the liquid lifting pipe is larger than a potential liquid lifting height of the air pump, a height from the liquid surface in the liquid supply section to the branching section is smaller than the potential liquid lifting height of the air pump, the liquid lifting pipe comprises a lower section and an upper section, the one end portion of the air supply pipe is connected in a straight line to the upper section of the liquid lifting pipe on the tank side via the branching section, and the lower section is bent away from the upper section at the branching section. 2. The liquid lifting device according to claim 1 , wherein the upright section of the air supply pipe extends up to a position higher than the potential liquid lifting height of the air pump, and the air valve is attached to the upright section at a position higher than the potential liquid lifting height of the air pump. 3. The liquid lifting device according to claim 1 , wherein the one end portion and the other end portion of the air supply pipe respectively stand upright and comprise approximately a U shape as a whole. 4. The liquid lifting device according to claim 1 , wherein a cross-sectional area of the air supply pipe is larger than a cross-sectional area of the liquid lifting pipe. 5. A liquid lifting method configured to use a liquid lifting device including: a liquid supply section in which liquid is stored; a tank provided at a position which is higher than the liquid supply section; a liquid lifting pipe of which one end is inserted into the liquid stored in the liquid supply section and the other end is connected to the tank; an air pump configured to depressurize an interior of the tank and an interior of the liquid lifting pipe, wherein the air pump includes a suction inlet and a discharge outlet communicating with each other when the air pump is not driven; an air supply pipe of which one end portion is connected to the liquid lifting pipe via a branching section at a position halfway in the liquid lifting pipe, wherein an upright section is provided in the other end portion of the air supply pipe while the upright section stands upright from the one end portion; and an air valve provided in the other end portion of the air supply pipe and configured to open/close with respect to the outside air, wherein a height from a liquid surface in the liquid supply section to the other end of the liquid lifting pipe is larger than a potential liquid lifting height of the air pump, a height from the liquid surface in the liquid supply section to the branching section is smaller than the potential liquid lifting height of the air pump, the liquid lifting pipe comprises a lower section and an upper section, the one end portion of the air supply pipe is connected in a straight line to the upper section of the liquid lifting pipe on the tank side via the branching section, and the lower section is bent away from the upper section at the branching section, the method comprising: a first step of driving the air pump while closing the air valve so as to lift the liquid stored in the liquid supply section up to a position above the branching section in the liquid lifting pipe; and a second step of opening the air valve while driving the air pump so as to introduce an air layer into the branching section through the air supply pipe, dividing the liquid in the liquid lifting pipe into upper and lower side liquids by the air layer, and pumping up the liquid positioned above the air layer into the tank. 6. The liquid lifting method according to claim 5 further comprising a step of keeping the air valve open continuously until the liquid positioned above the air layer has been pumped up into the tank.