Power storage apparatus

The invention claimed is: 1. A power storage apparatus comprising: an electrode assembly having a plurality of stacked and layered electrodes; a case that accommodates the electrode assembly; an electrode terminal that protrudes from the case and is electrically connected to the electrode assembly; and a covering member that is arranged between the case and the electrode assembly and covers at least part of the electrode assembly, wherein the covering member includes an extending portion that extends in a protruding direction of the electrode terminal from one of edges of the electrode assembly that is opposed to the electrode terminal, a coefficient of friction between the covering member and the electrode assembly is greater than a coefficient of friction between the case and the covering member the electrode assembly has an outer surface that is in contact with the covering member, and the outer surface of the electrode assembly is rougher than the inner surface of the case. 2. The power storage apparatus according to claim 1 , wherein the covering member includes an inner surface that is in contact with the electrode assembly, and an outer surface that is in contact with the case, the inner surface of the covering member is a rough surface, and the outer surface of the covering member is a smooth surface. 3. The power storage apparatus according to claim 1 , wherein the electrode assembly and the covering member are in surface contact with each other. 4. The power storage apparatus according to claim 1 , wherein the covering member is in a shape of a bag, and the covering member accommodates the electrode assembly. 5. The power storage apparatus according to claim 1 , wherein the covering member is an insulating film that insulates the electrode assembly and the case from each other. 6. The power storage apparatus according to claim 1 , wherein the electrode assembly includes a bundle of tabs, the tab bundle is connected to the electrode terminal, and by being bent, the tab bundle allows the electrode assembly to move toward the electrode terminal. 7. The power storage apparatus according to claim 1 , wherein the power storage apparatus is a rechargeable battery. 8. The power storage apparatus according to claim 1 , wherein the electrode assembly has a lamination structure in which a sheet-shaped positive electrode and a sheet-shaped negative electrode are laminated with a sheet-shaped separator in between. 9. A power storage apparatus comprising: an electrode assembly having a plurality of stacked and layered electrodes; a case that accommodates the electrode assembly; an electrode terminal that protrudes from the case and is electrically connected to the electrode assembly; and a covering member that is arranged between the case and the electrode assembly and covers at least part of the electrode assembly, wherein the covering member includes an extending portion that extends in a protruding direction of the electrode terminal from one of edges of the electrode assembly that is opposed to the electrode terminal, a coefficient of friction between the covering member and the electrode assembly is greater than a coefficient of friction between the case and the covering member, the electrode assembly includes a thickness adjuster that is in contact with the covering member at an outermost layer of the electrode assembly, the thickness adjuster has an outer surface that is in contact with the covering member, the outer surface of the thickness adjuster is a rough surface, the covering member has an outer surface that is in contact with the case, and the outer surface of the covering member is a smooth surface. 10. A power storage apparatus comprising: an electrode assembly having a plurality of stacked and layered electrodes; a case that accommodates the electrode assembly; an electrode terminal that protrudes from the case and is electrically connected to the electrode assembly; and a covering member that is arranged between the case and the electrode assembly and covers at least part of the electrode assembly, wherein the covering member includes an extending portion that extends in a protruding direction of the electrode terminal from one of edges of the electrode assembly that is opposed to the electrode terminal, a coefficient of friction between the covering member and the electrode assembly is greater than a coefficient of friction between the case and the covering member, the covering member includes an inner surface that is in contact with the electrode assembly, and the inner surface of the covering member is a flat and rough surface.