The invention relates to a battery cell connector with a first and a second substantially flat limb (1, 2), wherein the first limb (1) has a connecting side (3) for connection to a plurality of electrodes of a battery, the second limb (2) is arranged at an angle with respect to the first limb (1) and extends from that side (4) of the first limb which is opposite the connection side (3), wherein a shoulder (5) is provided which extends from the first to the second limb. Against this background, the invention specifies a battery cell connector with a high current-carrying capacity which is improved in comparison with the known battery cell connectors. For this purpose, the invention provides that the profile of the height (h) of the shoulder (5) from the first limb (1) towards the second limb is nonlinear and is convex with respect to the first and the second limb (1, 2).

A lead-acid battery includes an electrode plate assembly, a battery case, a positive electrode strap, a negative electrode strap, a positive electrode post, a negative electrode post, a cover, and an electrolyte solution. A negative electrode bushing provided in the cover and the negative electrode post together constitute a negative electrode terminal. A maximum value of a gap between an outer circumferential surface of the negative electrode post and an inner circumferential surface of the negative electrode bushing in the negative electrode terminal is 0.5 mm or more and 2.5 mm or less. A rib is provided in a lower part of the negative electrode bushing, and a minimum value of a protrusion height of the rib is 1.5 mm or more and 4.0 mm or less. A distance between a surface of the electrolyte solution and a lowermost portion of the negative electrode bushing is 15 mm or less.

Methods for making lead-carbon coupling, lead-carbon electrode sheets, and a lead-carbon battery are revealed. The coupling methods consist of steps of assembling the carbon material that contains oxygen functional groups or metal precursors and lead material in contact with each other and then heating the assembled lead-carbon pair to form lead oxides or metal carbides as a bridge to form coupled lead-carbon interface with high electrochemical and mechanical stability. This coupled lead-carbon structure is applied to form lead-carbon electrode sheets and is further used as electrode sheets of lead-carbon batteries by lead welding.

An electric storage apparatus including a welding structure between an electric storage device and a bus bar includes the electric storage device including an external terminal that includes a first connection surface, the bus bar including a second connection surface that overlaps the first connection surface, a first weld portion that is formed extending over the external terminal and the bus bar in a region where the first connection surface and the second connection surface are opposed to each other, and a second weld portion that is formed extending over the external terminal and the bus bar in the region where the first connection surface and the second connection surface are opposed to each other, the second weld portion directly overlapping the first weld portion in a region where the first connection surface and the second connection surface overlap each other.

An apparatus for moulding battery components including a molten metal feed trough, a mould block adjacent to the feed trough, a weir between the feed trough and each cavity and a supply for feeding molten metal to the feed trough. The mould block has at least one mould cavity and a cooling arrangement which cools the mould block, and the mould block is provided with a heating arrangement adjacent to the or each mould cavity. In use, the heating arrangement maintains at least part of the, or each, mould cavity at an elevated temperature relative to the average operational temperature of the mould block.

A bipolar plate can include at least one resin selected from the group consisting of acrylonitrile butadiene styrene (ABS), polyphenylsulfone, a polymer resistant to sulfuric acid, and combinations of any thereof. The bipolar plate can further include conductive fibers comprise amount of from about 20% to about 50% by volume.

A terminal-equipped electrical wire includes an electrical wire and a terminal that is connected to the electrical wire. The terminal includes a metal cap portion in which one end portion of a tubular portion that has a tubular shape is sealed and another end portion is an opening portion. The terminal is connected to the electrical wire in a state where the cap portion is placed over an end portion of the electrical wire. An edge portion of the opening portion has an increased width in the diameter direction of the tubular portion.

Disclosed is a lead acid battery including: a positive electrode; a negative electrode; a separator interposed between the positive electrode and the negative electrode; and an electrolyte containing sulfuric acid. The negative electrode includes a negative electrode active material, and a negative electrode grid that supports the negative electrode active material. The negative electrode grid contains tin in an amount of 0.1 mass % or more and 0.8 mass % or less. The electrolyte contains aluminum ions at a concentration of 1 mmol/L or more and less than 10 mmol L, and sodium ions at a concentration of 15 mmol/L or less.

An apparatus and a method for moulding battery components using an apparatus include a mould block having a plurality of mould cavities; a molten metal feed trough adjacent to the mould block and extending in a generally longitudinal direction along the mould block; a plurality of weirs between the feed trough and each of the cavities; and a supply for providing molten metal to the trough. The feed trough is provided with at least one volume adjustment mechanism, which is operable to alter the volume of the feed trough.

Lead/acid batteries are provided that can include: a plurality of electrodes having a planar copper conductive core member bounded by a polymeric frame maintaining the conductive core member in the planar state.