Differential pressure water electrolysis system

What is claimed is: 1. A differential pressure water electrolysis system comprising: high-pressure water electrolysis cells stacked in a stacking direction, each of the high-pressure water electrolysis cells comprising: an electrolyte membrane; an anode current collector and a cathode current collector that hold the electrolyte membrane between the anode current collector and the cathode current collector; a tabular anode separator defining an anode chamber in which the anode current collector is accommodated; a tabular cathode separator defining a cathode chamber in which the cathode current collector is accommodated; a sealing member disposed in the cathode chamber so as to encircle the cathode current collector; and a resin frame member disposed between the tabular anode separator and the tabular cathode separator so as to surround the sealing member and the anode current collector, the resin frame member comprising: a water supply port to introduce water for electrolysis; and a water discharge port to discharge a surplus of the water after electrolysis; each of the high-pressure water electrolysis cells being to electrolyze the water that has been supplied to each of the high-pressure water electrolysis cells to generate oxygen on an anode current collector side and generate hydrogen having a pressure higher than a pressure of the oxygen on a cathode current collector side; and a high pressure hydrogen manifold provided so as to distribute the hydrogen in the stacking direction and so as to be encircled by the sealing member, wherein each of the high-pressure water electrolysis cells includes: a first sealing member provided between the resin frame member and the tabular anode separator; and a second sealing member provided between the resin frame member and the tabular cathode separator, wherein the first sealing member and the second sealing member are disposed such that a load on the first sealing member and a load on the second sealing member are the same, wherein the first sealing member comprises a first inner sealing member which encircles a first inner peripheral edge portion of the resin frame member and a first outer sealing member which encircles a first outer peripheral edge portion of the resin frame member, and wherein the second sealing member comprises a second inner sealing member which encircles a second inner peripheral edge portion of the resin frame member and a second outer sealing member which encircles a second outer peripheral edge portion of the resin frame member. 2. The differential pressure water electrolysis system according to claim 1 , wherein each of the high-pressure water electrolysis cells includes a tabular water plate disposed inside an inner peripheral surface of the resin frame member, and wherein the tabular water plate includes a water flow passage that is in communication with the water supply port and the water discharge port and that distributes the water along an inside of the tabular water plate, and hole portions that are in communication with the water flow passage and that supply the water to the anode current collector. 3. The differential pressure water electrolysis system according to claim 2 , wherein the tabular water plate includes protrusions that protrude outwards with respect to a surface of the tabular water plate and towards either of the water supply port and the water discharge port are provided in the tabular water plate, and projecting portions that bulge in a thickness direction of the tabular water plate are provided in the protrusions. 4. The differential pressure water electrolysis system according to claim 1 , wherein the first inner sealing member, the first outer sealing member, the second inner sealing member, and the second outer sealing member are disposed such that a sum of a load on the first inner sealing member and a load on the first outer sealing member is equal to a sum of a load on the second inner sealing member and a load on the second outer sealing member. 5. The differential pressure water electrolysis system according to claim 1 , wherein the high pressure hydrogen manifold is provided in center portions of the high-pressure water electrolysis cells and extends through the high-pressure water electrolysis cells in the stacking direction. 6. The differential pressure water electrolysis system according to claim 5 , wherein the resin frame member includes a first bulging portion bulging outward with respect to the high pressure hydrogen manifold and having a water inlet manifold through which the water is supplied, wherein the water inlet manifold is in communication with the water supply port, wherein the resin frame member includes a second bulging portion bulging outward with respect to the high pressure hydrogen manifold and having a water outlet manifold through which the oxygen and unreacted water are discharged, and wherein the water outlet manifold is in communication with the water discharge port. 7. A differential pressure water electrolysis system comprising: high-pressure water electrolysis cells stacked in a stacking direction, each of the high-pressure water electrolysis cells comprising: an electrolyte membrane; an anode current collector and a cathode current collector that hold the electrolyte membrane between the anode current collector and the cathode current collector; a tabular anode separator defining an anode chamber in which the anode current collector is accommodated; a tabular cathode separator defining a cathode chamber in which the cathode current collector is accommodated; a sealing member disposed in the cathode chamber so as to encircle the cathode current collector; and a resin frame member disposed between the tabular anode separator and the tabular cathode separator so as to surround the sealing member and the anode current collector, the resin frame member comprising: a water supply port to introduce water for electrolysis; and a water discharge port to discharge a surplus of the water after electrolysis; each of the high-pressure water electrolysis cells being to electrolyze the water that has been supplied to each of the high-pressure water electrolysis cells to generate oxygen on an anode current collector side and generate hydrogen having a pressure higher than a pressure of the oxygen on a cathode current collector side; and a high pressure hydrogen manifold provided so as to distribute the hydrogen in the stacking direction and so as to be encircled by the sealing member, wherein each of the high-pressure water electrolysis cells includes a tabular water plate disposed inside an inner peripheral surface of the resin frame member, wherein the tabular water plate includes: a water flow passage that is in communication with the water supply port and the water discharge port and that distributes the water along an inside of the tabular water plate; and hole portions that are in communication with the water flow passage and that supply the water to the anode current collector, wherein the tabular water plate includes: protrusions that protrude outwards with respect to a surface of the tabular water plate and towards either of the water supply port and the water discharge port are provided in the tabular water plate; and projecting portions that bulge in a thickness direction of the tabular water plate are provided in the protrusions, and wherein an interval from an inner surface of the tabular anode separator to a bottom surface of the resin frame member is set smaller than an interval from the inner surface of the tabular anode separator to upper surfaces of the protrusions of the tabular water plate. 8. The differential pressure water electrolysis system