Energy storage device

1 . An energy storage device comprising: an electrode assembly having a positive electrode sheet and a negative electrode sheet stacked alternately with a separator interposed therebetween, and a positive electrode current collecting tab and a negative electrode current collecting tab formed of projecting portions which project from a first portion on one side in a stacking direction of the respective electrode sheets, the electrode assembly being housed in a case; a positive electrode external terminal and a negative electrode external terminal disposed on the case; and a positive electrode current collector and a negative electrode current collector disposed between the electrode assembly and the case, electrically connected to the respective external terminals, and electrically connected to the respective current collecting tabs on the other side in the stacking direction of the respective electrode sheets, the other side being a second portion side of the respective electrode sheets. 2 . The energy storage device according to claim 1 , wherein the electrode assembly is formed by winding the stacked positive electrode sheet, the negative electrode sheet and the separator interposed therebetween about a winding axis, and an end portion of the electrode assembly as viewed in a direction that the winding axis extends is formed into an elongated circular shape having a pair of straight line portions which opposedly face each other, and a pair of curved portions which opposedly face each other so as to connect the straight line portions, and in the pair of straight line portions, the positive electrode current collecting tab and the negative electrode current collecting tab are disposed on the first straight line portion, which forms the first portion on the one side, in a spaced-apart manner in the direction that the first straight line portion extends, and the respective current collecting tabs and the respective current collectors are connected to each other on a second straight line portion side which is the second portion side on the other side. 3 . The energy storage device according to claim 1 , wherein the current collecting tab has two or more bent portions including: a first bent portion positioned on an electrode sheet side and bent toward the second portion side from the first portion side; and a second bent portion positioned on a current collector side and bent toward the first portion side from the second portion side. 4 . The energy storage device according to claim 3 , wherein the second bent portion of the current collecting tab is disposed between the current collector and the case, and a size of the current collecting tab from the first bent portion to the second bent portion is set longer then a size of the current collecting tab from the first bent portion to the connecting portion. 5 . The energy storage device according to claim 4 , wherein the current collecting tabs are joined to each other in a state where other projecting portions are disposed in an inclined manner toward a distal end of the first projecting portion with respect to the first projecting portion positioned at the center of the electrode sheet in a stacking direction. 6 . The energy storage device according to claim 3 , wherein a peak portion of the first bent portion of the current collecting tab which bulges toward a current collector side is positioned between an opposedly facing surface of the current collector which opposedly faces the electrode assembly and the case. 7 . The energy storage device according to claim 1 , wherein the current collecting tab has a first bent portion bent toward the second portion side from the first portion side, and a peak portion of the first bent portion which bulges toward the current collector side is positioned between an opposedly facing surface of the current collector which opposedly faces the electrode assembly and the case. 8 . The energy storage device according to claim 6 , wherein an escape portion where the peak portion of the first bent position is disposed is formed on the current collector.