A top cover assembly and a battery are disclosed. The top cover assembly has a cover, a pole and an upper plastic member. The cover is provided with a first installation through hole. The pole operatively penetrates the first installation through hole and an end of the pole is higher than an upper surface of the cover. The upper plastic member is integrally injection-molded on the cover and surrounding the pole.

A top cover assembly and a battery are disclosed. The top cover assembly has a cover, a pole and an upper plastic member. The cover is provided with a first installation through hole. The pole operatively penetrates the first installation through hole and an end of the pole is higher than an upper surface of the cover. The upper plastic member is integrally injection-molded on the cover and surrounding the pole.

[Problem] To provide a battery cell case with a novel configuration in which the periphery of an opening in a surface which serves as an outer surface of a case lid having the opening is not resin laminated. [Solution] A battery cell case in which a case body and a case lid are joined by seaming or welding, wherein: the case body is made of a resin laminated steel sheet on a surface which serves as the inner surface of the case body; the resin laminate is made of a film of which a polyolefinic resin is the main ingredient; the case lid is made of a metal sheet; the case lid has an opening for releasing a gas generated by electrolyte injection or preliminary charging; and a range of at least 2 mm from the periphery of the opening in the surface which serves as the outer surface of the lid case is not resin laminated.

[Problem] To provide a battery cell case with a novel configuration in which the periphery of an opening in a surface which serves as an outer surface of a case lid having the opening is not resin laminated. [Solution] A battery cell case in which a case body and a case lid are joined by seaming or welding, wherein: the case body is made of a resin laminated steel sheet on a surface which serves as the inner surface of the case body; the resin laminate is made of a film of which a polyolefinic resin is the main ingredient; the case lid is made of a metal sheet; the case lid has an opening for releasing a gas generated by electrolyte injection or preliminary charging; and a range of at least 2 mm from the periphery of the opening in the surface which serves as the outer surface of the lid case is not resin laminated.

High-power battery architecture comprising unique anode and cathode conductive means procuring improved battery life.

High-power battery architecture comprising unique anode and cathode conductive means procuring improved battery life.

An electrochemical apparatus includes an electrode assembly and a housing for accommodating the electrode assembly, where the housing includes a first housing body and a second housing body fixedly connected to the first housing body, at least one of the first housing body or the second housing body is provided with a notch, and a side edge of the notch is non-vertical with respect to a bottom edge of the notch; and the electrode assembly includes a tab, where the tab protrudes out from the notch to outside the housing, and the notch is filled with a sealing material.

An electrochemical apparatus includes an electrode assembly and a housing for accommodating the electrode assembly, where the housing includes a first housing body and a second housing body fixedly connected to the first housing body, at least one of the first housing body or the second housing body is provided with a notch, and a side edge of the notch is non-vertical with respect to a bottom edge of the notch; and the electrode assembly includes a tab, where the tab protrudes out from the notch to outside the housing, and the notch is filled with a sealing material.

A housing for a button cell battery includes a top, a can and a grommet. The skirt of the can extends between a top panel and a free end, and includes a substantially vertical first section and an outwardly tapered second section. The first section extends from the top panel of the can. The second section extends from the first section. Upon assembly of the housing, a flow path is defined between an outer surface of the skirt of the grommet and the inner surface of the skirt of the can. The flow path allows air to escape during the assembly, thus minimizing the risk of gas being entrapped within the interior of the housing of the finished cell battery.

Provided is a secondary battery that can improve structural efficiency. The secondary battery includes: a power generating element; and an exterior part housing the power generating element thereinside, wherein the exterior part has: a cylindrical part having openings in respective two facing faces thereof; inner lids placed in the openings, respectively; and first resin placed so as to cover each of the openings, and each face of the inner lids on opening sides, the first resin is placed so as to fill each space between the cylindrical part and the inner lids, and the cylindrical part and the inner lids are united into one body with the first resin.