A battery rack effectively prevents the spread of a fire or heat to adjacent battery packs when the fire or thermal runaway occurs in any of a plurality of battery packs. To achieve the above-described object, the battery rack includes a plurality of battery packs; and a rack case having a receiving space with an open structure in which the plurality of battery packs is vertically mounted at intervals and placed in vertical communication with one another, wherein a stopper is provided in the receiving space and disposed between the plurality of battery packs, spaced apart from the plurality of battery packs, and is configured to suppress volume expansion of the battery pack when the volume of the battery pack expands.

A battery rack effectively prevents the spread of a fire or heat to adjacent battery packs when the fire or thermal runaway occurs in any of a plurality of battery packs. To achieve the above-described object, the battery rack includes a plurality of battery packs; and a rack case having a receiving space with an open structure in which the plurality of battery packs is vertically mounted at intervals and placed in vertical communication with one another, wherein a stopper is provided in the receiving space and disposed between the plurality of battery packs, spaced apart from the plurality of battery packs, and is configured to suppress volume expansion of the battery pack when the volume of the battery pack expands.

An example of a battery apparatus (10) is provided including: a housing (12) with a connection arrangement (24); a plurality of interoperable battery cartridges (36) removably fittable to the housing (12) to connect with the connection arrangement (24) to form a stack; at least one battery interface arrangement (17) adapted to be removably fitted to the housing (12) to connect with the connection arrangement (24) so as to be in communication with a selection of the plurality of interoperable battery cartridges (26) via the connection arrangement (24). Examples of battery cartridges (36), a system (5) including one or more battery apparatuses (10), and associated example methods are also disclosed.

A battery module includes: a battery cell stacked member in which a plurality of battery cells are stacked; a bus bar frame respectively connected to the front and rear surfaces of the battery cell stacked member; and a frame member accommodating the battery cell stacked member to which the bus bar frame is mounted, wherein one side of the bottom part of the frame member includes at least two step regions, at least two step regions are spaced apart in the same direction as the direction in which the battery cells are stacked, and the bus bar frame includes a support positioned to correspond to the step region.

A battery module includes: a battery cell stacked member in which a plurality of battery cells are stacked; a bus bar frame respectively connected to the front and rear surfaces of the battery cell stacked member; and a frame member accommodating the battery cell stacked member to which the bus bar frame is mounted, wherein one side of the bottom part of the frame member includes at least two step regions, at least two step regions are spaced apart in the same direction as the direction in which the battery cells are stacked, and the bus bar frame includes a support positioned to correspond to the step region.

A battery module with enhanced stability against fire and explosion. The battery module includes a cell assembly having a plurality of secondary batteries, a lower case having an open top and having an accommodation space, an upper case coupled to the lower case to cover the open top of the lower case and having a connection hole perforated to communicate with the accommodation space; an upper cover coupled to the upper case to cover an upper portion of the upper case and configured to form a buffer space spaced apart from the upper case, the upper cover having a discharge hole perforated so that the buffer space communicates with the outside; and at least one partition member extending in a horizontal direction inside the buffer space to form a moving passage extending from the connection hole to the discharge hole and configured to have an adjustable extension length.

A stack has an end surface located at an end portion in a first direction. A restraint portion includes a first member, a second member, and an adhesive agent layer. The first member has a main body portion and a protrusion portion. The protrusion portion protrudes from the main body portion in a second direction intersecting the first direction. The second member is provided with a recess portion that receives at least a portion of the protrusion portion in the second direction. The adhesive agent layer adheres the first member and the second member to each other. One of the first member and the second member is provided to face the end surface of the stack. The protrusion portion and the recess portion are engaged with each other with the adhesive agent layer being interposed between the protrusion portion and the recess portion.

A stack has an end surface located at an end portion in a first direction. A restraint portion includes a first member, a second member, and an adhesive agent layer. The first member has a main body portion and a protrusion portion. The protrusion portion protrudes from the main body portion in a second direction intersecting the first direction. The second member is provided with a recess portion that receives at least a portion of the protrusion portion in the second direction. The adhesive agent layer adheres the first member and the second member to each other. One of the first member and the second member is provided to face the end surface of the stack. The protrusion portion and the recess portion are engaged with each other with the adhesive agent layer being interposed between the protrusion portion and the recess portion.

A battery module includes a heat-shrinkable tube serving as a module housing. The battery module includes a cell assembly having a plurality of pouch-type secondary batteries; a bus bar assembly having a bus bar frame and a bus bar mounted to an outer surface of the bus bar frame; and a heat-shrinkable tube formed to be shrunk by heat and configured so that the cell assembly is located therein, the heat-shrinkable tube being provided to surround a side surface of the cell assembly and a portion of the bus bar assembly.

A battery module includes a heat-shrinkable tube serving as a module housing. The battery module includes a cell assembly having a plurality of pouch-type secondary batteries; a bus bar assembly having a bus bar frame and a bus bar mounted to an outer surface of the bus bar frame; and a heat-shrinkable tube formed to be shrunk by heat and configured so that the cell assembly is located therein, the heat-shrinkable tube being provided to surround a side surface of the cell assembly and a portion of the bus bar assembly.