Solid state battery and solid state battery manufacturing method

What is claimed is: 1 . A solid state battery comprising: a first electrode piece in which a first electrode active material layer is formed on a first current collector layer; a second electrode in which a second electrode active material layer is formed on a second current collector layer; and a bag-shaped solid electrolyte layer which accommodates the first electrode piece, wherein the first electrode piece accommodated in the bag-shaped solid electrolyte layer and the second electrode are laminated so as to overlap each other in a plan view so that the first electrode active material layer and the second electrode active material layer are disposed so as to face each other with a solid electrolyte layer interposed therebetween. 2 . The solid state battery according to claim 1 , further comprising: a bellows-folded electrode sheet, wherein the electrode sheet includes a first connection portion which is formed by the first current collector layer and extends in a belt shape, a plurality of the first electrode pieces which are connected to a side surface of the first connection portion and are respectively accommodated in the bag-shaped solid electrolyte layer, a second connection portion which is formed by the second current collector layer and extends in a belt shape, and a plurality of second electrode pieces which are connected to a side surface of the second connection portion, wherein the first electrode piece is formed such that the first electrode active material layer is formed on both surfaces of the first current collector layer and the second electrode piece is formed such that the second electrode active material layer is formed on both surfaces of the second current collector layer, wherein the first connection portion and the second connection portion are disposed so as to face each other in a plan view and a first region and a second region are alternately formed between the first connection portion and the second connection portion in a longitudinal direction, the first region being formed such that the bag-shaped solid electrolyte layer accommodating the first electrode piece and the second electrode piece are laminated and the second region being formed such that the bag-shaped solid electrolyte layer and the second electrode piece are laminated in a laminating order opposite to that of the first region, and wherein the electrode sheet is folded in a bellows shape so that the first region and the second region are alternately laminated. 3 . The solid state battery according to claim 1 , further comprising: a bellows-folded electrode sheet, wherein the electrode sheet includes a first connection portion which is formed by the first current collector layer and extends in a belt shape, a plurality of the first electrode pieces which are connected to a side surface of the first connection portion and are respectively accommodated in the bag-shaped solid electrolyte layer, a second connection portion which is formed by the second current collector layer and extends in a belt shape, and the second electrode which is connected to a side surface of the second connection portion and extends in a belt shape, wherein the first electrode piece is formed such that the first electrode active material layer is formed on both surfaces of the first current collector layer and the second electrode is formed such that the second electrode active material layer is formed on both surfaces of the second current collector layer, wherein the first connection portion and the second connection portion are disposed so as to face each other in a plan view and a first region and a second region are alternately formed between the first connection portion and the second connection portion in a longitudinal direction, the first region being formed such that the bag-shaped solid electrolyte layer accommodating the first electrode piece and the second electrode are laminated and the second region being formed such that the bag-shaped solid electrolyte layer and the second electrode are laminated in a laminating order opposite to that of the first region, and wherein the electrode sheet is folded in a bellows shape so that the first region and the second region are alternately laminated. 4 . The solid state battery according to claim 1 , wherein the first electrode active material layer is a positive electrode active material layer and the second electrode active material layer is a negative electrode active material layer. 5 . The solid state battery according to claim 1 , wherein the bag-shaped solid electrolyte layer is formed by a solid electrolyte layer sheet and the solid electrolyte layer sheet disposed so as to cover both surfaces of the first electrode piece having a rectangular shape in a plan view is formed in a bag shape by being bonded along two facing sides of the first electrode piece. 6 . A method of manufacturing the solid state battery according to claim 1 , comprising: forming a first sheet including a first connection portion which is formed by a first current collector layer and extends in a belt shape and a plurality of first electrode pieces which are connected to a side surface of the first connection portion, have the first electrode active material layer formed on both surfaces of the first current collector layer, and have a rectangular shape in a plan view; disposing a solid electrolyte layer sheet on both surfaces of the first electrode piece so as to continuously cover a plurality of the first electrode pieces by exposing the first connection portion; bonding the solid electrolyte layer sheet between the adjacent first electrode pieces along an end surface of the first electrode piece in a direction orthogonal to a longitudinal direction of the first sheet; and forming a bag-shaped solid electrolyte layer accommodating each of the plurality of first electrode pieces by cutting the solid electrolyte layer sheet between the adjacent first electrode pieces.