Electrolysis device and apparatus for producing electrolyzed ozonated water

1 . An electrolysis device comprising: an electrolysis cell formed in a manner that a membrane-electrode assembly, which comprises an anode, a cathode, and a solid polymer electrolyte separation membrane, is compressed from both sides so as to adhere the anode, the cathode, and the solid polymer electrolyte separation membrane formed of a cation exchange membrane to each other, wherein the membrane-electrode assembly is configured to adhere the anode and the cathode to both surfaces of the solid polymer electrolyte separation membrane formed of the cation exchange membrane; and an inflow port that supplies raw water composed of unpurified water containing alkaline earth metal, to at least one of the anode and the cathode; wherein the electrolysis device is configured to mix an anolyte generated on the anode with a catholyte generated on the cathode in the electrolysis device, a porous conductive metallic material, which has flexibility and in which multiple fine voids are provided is used as the cathode, and scale, which is substantially formed of hydroxide of the alkaline earth metal is stored in the fine void in the cathode so as to prevent localized deposition of the scale which is substantially formed of hydroxide of the alkaline earth metal at a contact interface between the cathode and the solid polymer electrolyte separation membrane. 2 . The electrolysis device according to claim 1 , wherein the electrolysis cell is configured to have a monopolar stack structure in a manner that at least one additional membrane-electrode assembly, which has the same as the structure of the membrane-electrode assembly, is further connected to an outer side of the cathode, the anode, or both the cathode and the anode in the membrane-electrode assembly, so as to bring the cathodes into contact with each other, or bring the anodes into contact with each other, or bring both the cathodes and anodes into contact with each other, in the membrane-electrode assemblies. 3 . The electrolysis device according to claim 1 , wherein the electrolysis cell is configured to have a bipolar stack structure in a manner that at least one different membrane-electrode assembly, which has the same structure as the structure of the membrane-electrode assembly, is further connected to an outer side of the cathode, the anode, or both the cathode and the anode in the membrane-electrode assembly, so as to bring the cathode and the anode into contact with each other in the membrane-electrode assemblies. 4 . The electrolysis device according to claim 1 , wherein the cathode is formed by at least one porous conductive metallic material selected from the group of a metal foam, a metallic fiber cloth, and a fibrous metal molded body. 5 . The electrolysis device according to claim 1 , wherein in a case that the cathode is positioned as an outermost layer of the electrolysis cell, the cathode is supported by a rigid substrate formed of a plate material, a mesh, or perforated punching metal. 6 . An apparatus for producing electrolyzed ozone water that produces ozone water by performing electrolysis of the unpurified water containing ions of the alkaline earth metal by using the electrolysis device according to claim 1 .