Power storage module

The invention claimed is: 1. A power storage module comprising: a plurality of bipolar electrodes each including an electrode plate, a positive electrode formed on a first face of the electrode plate, and a negative electrode formed on a second face of the electrode plate; and a plurality of separators with which the bipolar electrodes are stacked alternately, wherein the power storage module includes a cylindrical resin portion that extends in a direction in which the plurality of bipolar electrodes are stacked and that accommodates therein the plurality of bipolar electrodes, the resin portion includes a first seal portion that has a cylindrical shape and is joined to peripheral edge portions of the electrode plates, and a second seal portion that has a cylindrical shape, is disposed outside the first seal portion in a direction that crosses the stacking direction of the bipolar electrodes so that an outer peripheral surface of the first seal portion is sealed by the second seal portion, the separators are disposed such that outer peripheral ends of the separators are located between an outer peripheral end of the first seal portion and an inner peripheral end of the first seal portion, the first seal portion includes a plurality of frame bodies stacked in the stacking direction, the frame bodies each have a step formed between an inner peripheral portion of the frame bodies and an outer peripheral portion of the frame bodies, each of the separators includes a peripheral edge portion disposed in the step of the frame bodies so that the peripheral edge portion of each of the separators contacts the inner peripheral portion of the frame bodies, and a clearance is provided in the stacking direction between the peripheral edge portion of the separators that contacts the inner peripheral portion of the frame bodies and the electrode plate of the adjacent bipolar electrodes. 2. The power storage module according to claim 1 , wherein each of the frame bodies contacts the peripheral edge portion of the corresponding electrode plate and has a thickness that is greater than a thickness of the corresponding separator in the stacking direction of the bipolar electrodes. 3. The power storage module according to claim 1 , wherein the inner peripheral portion of each of the frame bodies is disposed on either one of the first face and the second face of the corresponding electrode plate, and joined to the one of the first face and the second face on which the frame body is disposed, and the outer peripheral portion of each of the frame bodies is formed continuously from an outer side of the inner peripheral portion, and is contacted with one of the frame bodies that is adjacent in the stacking direction of the bipolar electrodes. 4. The power storage module according to claim 1 , wherein the frame bodies each include: a first frame body member that is disposed on the first face of the corresponding electrode plate and joined to the first face; and a second frame body member that is disposed on the second face of the corresponding electrode plate and joined to the second face, and either one of the first frame body member and the second frame body member of each of the frame bodies has the step. 5. The power storage module according to claim 1 , wherein the frame bodies each include: a first frame body member that is disposed on the first face of the corresponding electrode plate and joined to the first face; and a second frame body member that is disposed on the second face of the corresponding electrode plate and joined to the second face, and the step that is formed between the corresponding electrode plate and either one of the first frame body member and the second frame body member of the corresponding frame body. 6. A power storage device comprising: the power storage module according to claim 1 , wherein the power storage module is a plurality of power storage modules, and the power storage modules are stacked serially in the stacking direction, conductor plates alternately stacked with the power storage modules, and a binding member, wherein the binding member includes a pair of binding plates and connecting members that connect the binding plates together, and each one of the pair of binding plates is located at opposing outer ends, in the stacking direction, of the power storage modules and the conductor plates that are alternately stacked, so that the binding member binds together the power storage modules and the conductor plates in the stacking direction. 7. A power storage module comprising: a plurality of bipolar electrodes each including an electrode plate, a positive electrode formed on a first face of the electrode plate, and a negative electrode formed on a second face of the electrode plate; a plurality of separators with which the bipolar electrodes are stacked alternately; and a cylindrical resin portion that extends in a direction in which the plurality of bipolar electrodes are stacked and that accommodates therein the plurality of bipolar electrodes, wherein the resin portion includes a first seal portion that has a cylindrical shape and is joined to peripheral edge portions of the electrode plates, and a second seal portion that has a cylindrical shape, is disposed outside the first seal portion in a direction that crosses the stacking direction of the bipolar electrodes so that an outer peripheral surface of the first seal portion is sealed by the second seal portion, the separators are disposed such that outer peripheral ends of the separators are located between an outer peripheral end of the first seal portion and an inner peripheral end of the first seal portion, the first seal portion includes a plurality of frame bodies stacked in the stacking direction, the plurality of frame bodies each have a step formed between an inner peripheral portion of the frame bodies and an outer peripheral portion of the plurality of frame bodies, the outer peripheral end of the separator is disposed in the step of the plurality of frame bodies, the separator includes a first face that contacts a first surface of a first frame body of the plurality of frame bodies, the separator includes a second face that is opposite from the first face of the separator in the stacking direction, and the second face of the separator faces a second surface of a second frame body of the plurality of frame bodies, and a clearance is provided in the stacking direction between the second face of the separator and the second surface of the second frame body.