An apparatus of manufacturing a battery module includes a guide plate that wraps a battery cell stack from left and right sides, with the battery cell stack being configured to stack a plurality of battery cells, wherein the guide plate comprises a body part in contact with the battery cell stack, and an insertion part connected to one end part of the body part and bent and protruded to the inner side of the battery cell stack; and the battery cell stack is inserted into the interior of the frame member whose upper part is opened by the insertion part.

An apparatus of manufacturing a battery module includes a guide plate that wraps a battery cell stack from left and right sides, with the battery cell stack being configured to stack a plurality of battery cells, wherein the guide plate comprises a body part in contact with the battery cell stack, and an insertion part connected to one end part of the body part and bent and protruded to the inner side of the battery cell stack; and the battery cell stack is inserted into the interior of the frame member whose upper part is opened by the insertion part.

A battery having a plurality of series bodies including a first series body and a second series body, in which each of the series bodies has a plurality of electrode bodies and has at least one intermediate current collector, the series bodies is electrically connected in parallel to each other, in each of the series bodies, the electrode bodies are electrically connected in series to each other through the intermediate current collector, and the intermediate current collectors in the first series body and the second series body are directly connected electrically to each other.

The present disclosure relates to a rechargeable battery including an electrode assembly that includes a first electrode, a second electrode, and a separator disposed between the first electrode and the second electrode, a first electrode tab that is electrically connected with the first electrode, and includes at least one first bent portion, a second electrode tab that is electrically connected with the second electrode, and includes at least one second bent portion, and exterior member that receives the electrode assembly, and a reinforcement member that is disposed in the first exterior member, while being disposed adjacent to at least one of the first electrode tab and the second electrode tab.

The present disclosure relates to a rechargeable battery including an electrode assembly that includes a first electrode, a second electrode, and a separator disposed between the first electrode and the second electrode, a first electrode tab that is electrically connected with the first electrode, and includes at least one first bent portion, a second electrode tab that is electrically connected with the second electrode, and includes at least one second bent portion, and exterior member that receives the electrode assembly, and a reinforcement member that is disposed in the first exterior member, while being disposed adjacent to at least one of the first electrode tab and the second electrode tab.

A battery is provided in which a damage of the electrode tab group is suitably inhibited. Suitable one aspect of the battery herein disclosed is provided with a battery comprising an electrode body with a positive electrode and a negative electrode, and that is formed in a flat hexahedron shape having a pair of rectangular-shaped flat outer surfaces, and includes a battery case that accommodates them. Here, a fixing member is arranged from at least one flat outer surface among a pair of flat outer surfaces to a positive electrode electrical collector part or a negative electrode electrical collector part of the electrode body.

A battery is provided in which a damage of the electrode tab group is suitably inhibited. Suitable one aspect of the battery herein disclosed is provided with a battery comprising an electrode body with a positive electrode and a negative electrode, and that is formed in a flat hexahedron shape having a pair of rectangular-shaped flat outer surfaces, and includes a battery case that accommodates them. Here, a fixing member is arranged from at least one flat outer surface among a pair of flat outer surfaces to a positive electrode electrical collector part or a negative electrode electrical collector part of the electrode body.

A package for a power storage device includes at least one laminated packaging material having first and second sections. The packaging material includes a metallic foil layer, a heat-resistant resin layer, and a heat-fusible resin layer. In a state in which the heat-fusible resin layers of the first and second sections are faced, peripheral edges thereof are heat-sealed to form a storage chamber for accommodating a device main body. One of the sections is extended outside the storage chamber to form a conductive flange having an exposed heat-fusible resin layer. The conductive flange is provided with an external conductive section in which the heat-fusible resin layer is partially removed to expose the metallic foil layer. The packaging material having the external conductive section is provided with an internal conductive section in the storage chamber in which the heat-fusible resin layer is partially removed to expose the metallic foil layer.

A package for a power storage device includes at least one laminated packaging material having first and second sections. The packaging material includes a metallic foil layer, a heat-resistant resin layer, and a heat-fusible resin layer. In a state in which the heat-fusible resin layers of the first and second sections are faced, peripheral edges thereof are heat-sealed to form a storage chamber for accommodating a device main body. One of the sections is extended outside the storage chamber to form a conductive flange having an exposed heat-fusible resin layer. The conductive flange is provided with an external conductive section in which the heat-fusible resin layer is partially removed to expose the metallic foil layer. The packaging material having the external conductive section is provided with an internal conductive section in the storage chamber in which the heat-fusible resin layer is partially removed to expose the metallic foil layer.

A battery module includes: a plurality of battery cells which have positive electrode tabs and negative electrode tab formed at both ends thereof, respectively, wherein the plurality of battery cells are stacked; a first bus bar assembly having first bus bars to which the positive electrode tabs and the negative electrode tabs located at one end of the battery cells are connected; a second bus bar assembly having second bus bars to which the positive electrode tabs and the negative electrode tabs located at the other end of the battery cells are connected; and a sensing unit which is connected to any one bus bar of the first and second bus bars to detect states of the battery cells.