A mould for forming battery components includes a first mould body having a first plurality of mould cavities and a second mould body having a second plurality of mould cavities. The first mould body and the second mould body are configured to be moveable between a moulding position in which the first plurality and second plurality of mould cavities are aligned, and a fill position in which the first plurality and second plurality of mould cavities are displaced from the aligned position and are proximal to a molten metal feed.

A mould for forming battery components includes a first mould body having a first plurality of mould cavities and a second mould body having a second plurality of mould cavities. The first mould body and the second mould body are configured to be moveable between a moulding position in which the first plurality and second plurality of mould cavities are aligned, and a fill position in which the first plurality and second plurality of mould cavities are displaced from the aligned position and are proximal to a molten metal feed.

A system for producing electrodes for lead-acid batteries is disclosed. An electrode that has been produced comprises at least one upper and/or one lower frame element as well as a lattice-shaped region that extends away from said upper or lower frame element and has a plurality of openings, the upper and/or lower frame element being of a greater thickness than the lattice-shaped region. Said system comprises the steps of: a) producing a profiled strip-shaped blank using a casting method in which the strip-shaped blank is formed, solely by means of said casting method, to have a greater thickness on one side in at least one of the regions which should eventually form the upper or lower frame element, than the thickness in regions which should eventually form the lattice-shaped region, and b) producing said lattice-shaped region with the openings in a subsequent expanded metal process.

A system for producing electrodes for lead-acid batteries is disclosed. An electrode that has been produced comprises at least one upper and/or one lower frame element as well as a lattice-shaped region that extends away from said upper or lower frame element and has a plurality of openings, the upper and/or lower frame element being of a greater thickness than the lattice-shaped region. Said system comprises the steps of: a) producing a profiled strip-shaped blank using a casting method in which the strip-shaped blank is formed, solely by means of said casting method, to have a greater thickness on one side in at least one of the regions which should eventually form the upper or lower frame element, than the thickness in regions which should eventually form the lattice-shaped region, and b) producing said lattice-shaped region with the openings in a subsequent expanded metal process.

A cover for a mold system comprises a baseplate, a top plate fastened to the baseplate, and a strap tab disposed between the baseplate and the top plate. The baseplate extends in a longitudinal direction and has a base protrusion protruding beyond the baseplate in a width direction perpendicular to the longitudinal direction. The top plate extends in the longitudinal direction and has a top protrusion protruding beyond the top plate in the width direction. The strap tab is held between the base protrusion and the top protrusion in a height direction perpendicular to the longitudinal direction and the width direction and is movable along the base protrusion in the width direction.

A cover for a mold system comprises a baseplate, a top plate fastened to the baseplate, and a strap tab disposed between the baseplate and the top plate. The baseplate extends in a longitudinal direction and has a base protrusion protruding beyond the baseplate in a width direction perpendicular to the longitudinal direction. The top plate extends in the longitudinal direction and has a top protrusion protruding beyond the top plate in the width direction. The strap tab is held between the base protrusion and the top protrusion in a height direction perpendicular to the longitudinal direction and the width direction and is movable along the base protrusion in the width direction.

Machine for continuous casting of a lead alloy for forming grids for plates of electric storage batteries, which comprises a rotary drum having an external peripheral surface with a plurality of grooves obtained according to the grid design to be made and a sliding block coupled in sliding relation with the external surface of the rotary drum and with a distribution duct obtained in order to insert the molten lead in the plurality of grooves. The plurality of grooves comprises circumferential notches and transverse notches that meet in respective vertices. At the vertices and within the circumferential notches, a plurality of studs are placed that are intended to shape corresponding corners of smoothed form of the grids.

A device for casting electrode grids for producing lead acid batteries in a continuous casting process. The device includes a casting wheel and a casting shoe which rests on an outer circumference of the casting wheel. Liquid lead exiting the casting shoe flows into a concave mold of the casting wheel surface and is removable as a solidified lead strip. The casting shoe is made up of two or more zones, at least a first hot zone with a temperature above the melting point of lead and a second, thermally separated zone with a temperature below the melting point of lead. Cooling the lead strip from two sides (the wheel side and the shoe side) avoids columnar crystal formation and increases the casting speed to 40 meter per minute and above. Thermal isolation of the lead feeding tube avoids re-flowing of lead to a lead pot, reducing PbO formation.

A device for casting electrode grids for producing lead acid batteries in a continuous casting process. The device includes a casting wheel and a casting shoe which rests on an outer circumference of the casting wheel. Liquid lead exiting the casting shoe flows into a concave mold of the casting wheel surface and is removable as a solidified lead strip. The casting shoe is made up of two or more zones, at least a first hot zone with a temperature above the melting point of lead and a second, thermally separated zone with a temperature below the melting point of lead. Cooling the lead strip from two sides (the wheel side and the shoe side) avoids columnar crystal formation and increases the casting speed to 40 meter per minute and above. Thermal isolation of the lead feeding tube avoids re-flowing of lead to a lead pot, reducing PbO formation.

A device for casting electrode carriers for the production of lead grid electrodes in a continuous casting process is provided, which includes a casting drum, the surface of which has been engraved with the shape of the lead strip to be cast, and a casting shoe which rests on the outer circumference of the casting drum in the region of the horizontal axis drawn through the axis of rotation when the casting drum rotates counterclockwise, whereat the exiting liquid lead flows into the concave mold of the casting drum surface and is removable as a solidified lead strip at the lower vertex of the casting drum after three quarters of a rotation and whereat draft angles of less than 7 degrees, in particular less than 3 degrees are provided.