Bipolar Lead-Acid Storage Battery

What is claimed is: 1 . A bipolar lead-acid storage battery, comprising: a plurality of cell members disposed in a stack manner with intervals including a positive electrode in which a positive active material layer is disposed on one surface of a positive electrode current collector plate formed of lead or a lead alloy, a negative electrode in which a negative active material layer is disposed on one surface of a negative electrode current collector plate formed of lead or a lead alloy, and a separator interposed between the positive electrode and the negative electrode; and a plurality of space forming members that each form a plurality of spaces to individually house the plurality of cell members, wherein the space forming members each include a substrate that covers at least one of a side of the positive electrode and a side of the negative electrode of the cell member, and a frame body that surrounds a side surface of the cell member, the cell member and the substrate of the space forming member are disposed to be alternately stacked, frame bodies adjacent to each other are joined to each other, a main substrate that is the substrate disposed between the cell members adjacent to each other has a through hole extending in a direction intersecting with a plate surface, and the positive electrode current collector plate and the negative electrode current collector plate of the cell members adjacent to each other are electrically connected to each other by an electrical conductor disposed in the through hole, and the plurality of cell members are electrically connected in series, the electrical conductor, and the positive electrode current collector plate, and the negative electrode current collector plate of the cell members adjacent to each other are connected by a welding method, the positive electrode current collector plate and the negative electrode include at least one of PbCaSn alloy, PbAgSn alloy, PbSn alloy, or PbCuSn alloy, a thickness (T1) of the positive electrode current collector plate disposed on one surface of the main substrate ranges from 0.15 mm to 0.75 mm, and a ratio (T1/T2) of the thickness (T1) of the positive electrode current collector plate relative to the thickness (T2) of the negative electrode current collector plate disposed on another face of the main substrate ranges from 1.5 to 6.5. 2 . The bipolar lead-acid storage battery according to claim 1 , wherein the ratio (T1/T2) ranges from 2.5 to 5.0. 3 . The bipolar lead-acid storage battery according to claim 1 , wherein the thickness (T2) of the negative electrode current collector plate ranges from 0.05 mm to 0.25 mm. 4 . The bipolar lead-acid storage battery according to claim 2 , wherein the thickness (T2) of the negative electrode current collector plate ranges from 0.05 mm to 0.25 mm. 5 . A bipolar lead-acid storage battery, comprising: a plurality of cell members disposed in a stack manner with intervals including a positive electrode in which a positive active material layer is disposed on one surface of a positive electrode current collector plate formed of lead or a lead alloy, a negative electrode in which a negative active material layer is disposed on one surface of a negative electrode current collector plate formed of lead or a lead alloy, and a separator interposed between the positive electrode and the negative electrode; and a plurality of space forming members that each form a plurality of spaces to individually house the plurality of cell members, wherein the space forming members each include a substrate that covers at least one of a side of the positive electrode and a side of the negative electrode of the cell member, and a frame body that surrounds a side surface of the cell member, the cell member and the substrate of the space forming member are disposed to be alternately stacked, frame bodies adjacent to each other are joined to each other, a main substrate that is the substrate disposed between the cell members adjacent to each other has a through hole extending in a direction intersecting with a plate surface, and the positive electrode current collector plate and the negative electrode current collector plate of the cell members adjacent to each other are electrically connected to each other by an electrical conductor disposed in the through hole, and the plurality of cell members are electrically connected in series, the electrical conductor, and the positive electrode current collector plate, and the negative electrode current collector plate of the cell members adjacent to each other are connected by a welding method, the positive electrode current collector plate and the negative electrode are formed of a heat treatment material of a rolled sheet made of a lead alloy in which a content of tin (Sn) is 0.30% by mass or more and 2.1% by mass or less, a content of calcium (Ca) is 0.009% by mass or more and 0.11% by mass or less, and the rest is lead (Pb) and unavoidable impurities, a thickness (T1) of the positive electrode current collector plate disposed on one surface of the main substrate ranges from 0.15 mm to 0.75 mm, and a ratio (T1/T2) of the thickness (T1) of the positive electrode current collector plate relative to the thickness (T2) of the negative electrode current collector plate disposed on another face of the main substrate ranges from 1.5 to 6.5. 6 . The bipolar lead-acid storage battery according to claim 5 , wherein the ratio (T1/T2) ranges from 2.5 to 5.0. 7 . The bipolar lead-acid storage battery according to claim 6 , wherein the thickness (T2) of the negative electrode current collector plate ranges from 0.05 mm to 0.25 mm. 8 . The bipolar lead-acid storage battery according to claim 5 , wherein the thickness (T2) of the negative electrode current collector plate ranges from 0.05 mm to 0.25 mm. 9 . A bipolar lead-acid storage battery, comprising: a plurality of cell members disposed in a stack manner with intervals including a positive electrode in which a positive active material layer is disposed on one surface of a positive electrode current collector plate formed of lead or a lead alloy, a negative electrode in which a negative active material layer is disposed on one surface of a negative electrode current collector plate formed of lead or a lead alloy, and a separator interposed between the positive electrode and the negative electrode; and a plurality of space forming members that each form a plurality of spaces to individually house the plurality of cell members, wherein the space forming members each include a substrate that covers at least one of a side of the positive electrode and a side of the negative electrode of the cell member, and a frame body that surrounds a side surface of the cell member, the cell member and the substrate of the space forming member are disposed to be alternately stacked, frame bodies adjacent to each other are joined to each other, a main substrate that is the substrate disposed between the cell members adjacent to each other has a through hole extending in a direction intersecting with a plate surface, and the positive electrode current collector plate and the negative electrode current collector plate of the cell members adjacent to each other are electrically connected to each other by an electrical conductor disposed in the through hole, and the plurality of cell members are electrically connected in series, the electrical conductor, and the positive electrode current collector plate, and the negative electrode current collector plate of the cell members adjacent to each other are connected by a welding method, the positive electrode current collector plate and the negative electrode are formed of a heat treatment material