The battery rack includes a plurality of battery packs vertically arranged, each battery pack including a plurality of secondary batteries stacked in a direction, and a pack housing having an internal space to receive the plurality of secondary batteries and configured to be supplied with a fire extinguishing liquid when an internal temperature equals or rises above a predetermined temperature, and a rack case having a receiving space to receive the plurality of battery packs, and including a plurality of rack plates, each having a mounting surface on which the battery pack is mounted, the mounting surface sloping at a predetermined angle with declining height as it goes in any one direction, and an extension portion having an end of any one direction extending further outward than the lower battery pack.

The battery rack includes a plurality of battery packs vertically arranged, each battery pack including a plurality of secondary batteries stacked in a direction, and a pack housing having an internal space to receive the plurality of secondary batteries and configured to be supplied with a fire extinguishing liquid when an internal temperature equals or rises above a predetermined temperature, and a rack case having a receiving space to receive the plurality of battery packs, and including a plurality of rack plates, each having a mounting surface on which the battery pack is mounted, the mounting surface sloping at a predetermined angle with declining height as it goes in any one direction, and an extension portion having an end of any one direction extending further outward than the lower battery pack.

A battery module with a reduced manufacturing cost, a battery pack, a vehicle and a method for manufacturing the battery pack. The battery module includes a plurality of battery cells standing in a first direction, and including a pair of electrode terminals disposed on top and arranged in at least one direction, a cooling frame having an upper surface to which a bottom of the plurality of battery cells is fixed, and extending in a second direction, an adhesive interposed between the plurality of battery cells and the cooling frame, and an upper frame configured to cover the plurality of battery cells.

A battery pack includes: a battery cell including a terminal surface on which an electrode terminal is located, a bottom surface opposite the terminal surface, and a lateral surface between the terminal surface and the bottom surface; a first tank facing the terminal surface of the battery cell; a second tank extending from the first tank and facing the lateral surface of the battery cell; and a third tank extending from the second tank and facing the bottom surface of the battery cell, and a cavity is defined in the first and second tanks to extend across the first and second tanks, the cavity being filled with a first cooling medium and being fluidically isolated from an outside of the battery pack; and a flow path is defined in the third tank to receive a flow of a second cooling medium which is different from the first cooling medium.

A battery pack includes: a battery cell including a terminal surface on which an electrode terminal is located, a bottom surface opposite the terminal surface, and a lateral surface between the terminal surface and the bottom surface; a first tank facing the terminal surface of the battery cell; a second tank extending from the first tank and facing the lateral surface of the battery cell; and a third tank extending from the second tank and facing the bottom surface of the battery cell, and a cavity is defined in the first and second tanks to extend across the first and second tanks, the cavity being filled with a first cooling medium and being fluidically isolated from an outside of the battery pack; and a flow path is defined in the third tank to receive a flow of a second cooling medium which is different from the first cooling medium.

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.

The present invention relates to a system and a method of detecting swelling of a battery cell, which, when abnormal swelling is generated in a battery cell embedded in a battery pack, rapidly detect the abnormal swelling and control a supply of a power source to the battery pack to be blocked, thereby preventing a structural deformation of the battery cell and the battery pack and life shortening of the battery, and preventing an accident, such as ignition and explosion.

The present invention relates to a system and a method of detecting swelling of a battery cell, which, when abnormal swelling is generated in a battery cell embedded in a battery pack, rapidly detect the abnormal swelling and control a supply of a power source to the battery pack to be blocked, thereby preventing a structural deformation of the battery cell and the battery pack and life shortening of the battery, and preventing an accident, such as ignition and explosion.

A battery module for a system for the storage of electrical energy for an electric drive vehicle. The battery module has: a group of chemical batteries arranged parallel to and beside one another; at least two connection plates which rest against opposite ends of the group of chemical batteries so as to electrically connect the poles of the chemical batteries to one another; two support bodies coupled to opposite ends of the group of chemical batteries so as to provide the chemical batteries with a stable mechanical support; two lids, which are coupled to the support bodies so as to create respective collecting chambers having at least one draining opening; and at least two tie rods, which are arranged on opposite sides of the battery module and tie together the lids and the support bodies in a packed manner.