Energy storage device and method for manufacturing energy storage device

The invention claimed is: 1. An energy, storage device, comprising: a terminal; an electrode assembly having a body portion and a tab portion projecting from the body portion; and a current collector electrically connecting the terminal and the tab portion with each other, wherein the current collector is configured such that a first plate portion and a second plate portion which opposedly face each other are continuously formed with each other with a curved portion interposed therebetween, wherein a thickness of the curved portion is set smaller than a thickness of the first plate portion and a thickness of the second plate portion, wherein at least a portion of an inner surface of the curved portion has an arcuate shape in cross section, wherein a width of a space defined by the inner surface of the curved portion in a direction that the first plate portion and the second plate portion opposedly face each other is set larger than a distance between a distal end of the first plate portion and a distal end of the second plate portion in the direction that the first plate portion and the second plate portion opposedly face each other, and wherein both end portions of the inner surface of the curved portion each include an inclined surface inclined in a straight line shape in a cross section. 2. A method for manufacturing the energy storage device described in claim 1 , said method comprising: providing the terminal; providing the electrode assembly including the body portion and the tab portion projecting from the body portion; and providing the current collector to electrically connect the terminal and the tab portion with each other, wherein the current collector is formed by bending a plate body having a flat plate shape, wherein a recessed portion is formed on a surface of the first region of the plate body which forms the inner surface of the curved portion, wherein the curved portion is formed by bending a first region having a smaller wall thickness than other regions of the plate body, and wherein inclined portions, where the wall thickness is gradually decreased toward the first region, are formed on boundaries between the first region and the other regions of the plate body. 3. An energy storage device, comprising: a terminal; an electrode assembly having a body portion and a tab portion projecting from the body portion; and a current collector electrically connecting the terminal and the tab portion with each other, wherein the current collector is configured such that a first plate portion and a second plate portion which opposedly face each other are continuously formed with each other with a curved portion interposed therebetween, wherein a thickness of the curved portion is set smaller than a thickness of the first plate portion and a thickness of the second plate portion, wherein a width of a space defined by an inner surface of the curved portion in a direction that the first plate portion and the second plate portion opposedly face each other is set larger than a distance between a distal end of the first plate portion and a distal end of the second plate portion in the direction that the first plate portion and the second plate portion opposedly face each other, and wherein both end portions of the inner surface of the curved portion each have an inclined surface inclined in a straight line shape in cross section.