Air cell

The invention claimed is: 1. An air cell comprising: a positive electrode; a negative electrode comprising a negative electrode metal layer and a negative electrode current collecting member; and an outer frame member having a first outer frame integrally joined to an outer periphery of the positive electrode and a second outer frame integrally joined to an outer periphery of the negative electrode current collecting member, the outer frame member providing a sealed storage portion for an electrolysis solution formed between the positive electrode and the negative electrode metal layer, wherein: the negative electrode current collecting member includes a flat body portion joined to the negative electrode metal layer, elongated protrusions projecting from the flat body portion facing an adjacent positive electrode and being arranged in parallel at predetermined intervals, and a support layer joined to the body portion in a state where the elongated protrusions penetrate the support layer; the negative electrode current collecting member is obtained in a manner such that an air flow path is formed on a surface of the positive electrode of the air cell adjacent thereto when a plurality of air cells are connected in series; and the negative electrode current collecting member contains a material having electrolysis solution resistance higher than that of the negative electrode metal layer. 2. The air cell according to claim 1 , wherein the outer frame member is made of resin and is integrated with at least one of the outer peripheries of the positive electrode and the negative electrode. 3. The air cell according to claim 1 , wherein the outer frame member includes an electrode fixing structure to mechanically fix at least one of the positive electrode and the negative electrode. 4. The air cell according to claim 1 , wherein the positive electrode includes a reinforcing layer. 5. The air cell according to claim 4 , wherein the reinforcing layer has electric conductivity. 6. The air cell according to claim 1 , wherein the positive electrode includes a water-repellent layer, a catalyst layer and a reinforcing layer stacked on top of each other, and at least one of the water-repellent layer, the catalyst layer and the reinforcing layer is integrally joined to the outer frame member. 7. The air cell according to claim 1 , wherein the negative electrode metal layer and the negative electrode current collecting member are integrated together. 8. The air cell according to claim 1 , wherein the negative electrode current collecting member has a dimension in a manner such that an outer periphery thereof extends to an outside of the negative electrode metal layer in a planar view. 9. The air cell according to claim 1 , wherein the surface of the positive electrode has electric conductivity. 10. An assembled battery comprising more than one air cell according to claim 1 , the more than one air cell being stacked on top of each other. 11. An air cell comprising: a positive electrode and a negative electrode; and an outer frame member located at outer peripheries of the positive electrode and the negative electrode, the positive electrode and the negative electrode, and the outer frame member being integrally joined together, wherein the negative electrode comprises a negative electrode current collecting member having elongated protrusions projecting on a surface facing an adjacent positive electrode, the elongated protrusions arranged in parallel at predetermined intervals, and the negative electrode current collecting member includes a flat body portion joined to the negative electrode metal layer, the elongated protrusions projecting from the body portion, and a support layer joined to the body portion in a state where the elongated protrusions penetrate the support layer. 12. An air cell comprising: a positive electrode and a negative electrode; and an outer frame member located at outer peripheries of the positive electrode and the negative electrode, the outer frame member includes a first outer frame member integrally joined to the positive electrode, and a second outer frame member integrally joined to the negative electrode and having different structure from the first outer frame member, wherein the negative electrode comprises a negative electrode current collecting member having elongated protrusions projecting on a surface facing an adjacent positive electrode, the elongated protrusions arranged in parallel at predetermined intervals, and the negative electrode current collecting member includes a flat body portion joined to the negative electrode metal layer, the elongated protrusions projecting from the body portion, and a support layer joined to the body portion in a state where the elongated protrusions penetrate the support layer.