Abstract: This disclosure provides collector plates for an energy storage device, energy storage devices with a collector plate, and methods for manufacturing the same. In one aspect, a collector plate includes a body. One or more apertures extend into the body. The apertures are configured to allow a portion of a free end of a spirally wound current collector of a spirally wound electrode for an energy storage device to extend into the one or more apertures.

Abstract: This disclosure provides collector plates for an energy storage device, energy storage devices with a collector plate, and methods for manufacturing the same. In one aspect, a collector plate includes a body. One or more apertures extend into the body. The apertures are configured to allow a portion of a free end of a spirally wound current collector of a spirally wound electrode for an energy storage device to extend into the one or more apertures.

Abstract: This disclosure provides collector plates for an energy storage device, energy storage devices with a collector plate, and methods for manufacturing the same. In one aspect, a collector plate includes a body. One or more apertures extend into the body. The apertures are configured to allow a portion of a free end of a spirally wound current collector of a spirally wound electrode for an energy storage device to extend into the one or more apertures.

Abstract: A joining operation for a stack of three metal sheets performed using only a single welding step, with access to only one sheet side being required. An inner sheet of the stack has formed therein a pair of bifurcated projections, wherein at least one first apex faces in one direction and at least one second apex faces in the opposite direction. First and second outer metal sheets are assembled with the inner sheet, wherein the first outer sheet abuts the at least one first apex, and the second outer sheet abuts the at least one second apex. A projection welding apparatus welds the sheets, using only access to the first outer sheet superposed the bifurcated projections, wherein a majority of the current flows through the second outer sheet.

Abstract: This disclosure provides collector plates for an energy storage device, energy storage devices with a collector plate, and methods for manufacturing the same. In one aspect, a collector plate includes a body. One or more apertures extend into the body. The apertures are configured to allow a portion of a free end of a spirally wound current collector of a spirally wound electrode for an energy storage device to extend into the one or more apertures.

Abstract: A battery pack for a vehicle has battery cells with foil cell tabs that are welded to an interconnect. Nickel plated copper is bonded to aluminum for either a first set of the battery cells, a second set of the battery cells or for the interconnect. Similar materials are then adjacent to each other at the weld locations between the foil cell tabs and the interconnect to avoid welding of dissimilar metals.

Abstract: A welding electrode assembly that includes a tip member and a coupling member and has certain self-aligning features which promote proper alignment during operation. In one embodiment, the coupling member acts as a self-aligning joint or connection and generally includes a housing, a movable plunger, and a biasing element such as a spring. During operation, contact between the tip member and a work piece surface causes the plunger to lift from an opening in the housing against the urging force of the spring so that the tip member can become properly aligned with the work piece.

Abstract: A battery pack for use in a vehicle may comprise battery cells, with each of the battery cells including a main body and a foil cell tab extending from the main body, with the battery cells arranged into a first set and a second set; an interconnect having a first leg, a second leg, and a bridge connecting the legs; first weld locations securing the foil cell tabs of the first set of battery cells to the first leg; and second weld locations securing the foil cell tabs of the second set of battery cells to the second leg. The foil cell tabs or the legs of the interconnect or both may include relief slots extending between the weld locations. Also, the thickness of a set of the tabs may be equal to the thickness of the leg to which they are welded.

Abstract: A self-cleaning GMAW nozzle characterized by the inner surface thereof having a laminate group, preferably composed of sequentially alternating layers of metal and bonding material. Over a period of time of welding, welding spatter begins to accumulate upon an outermost metal layer of the laminate group. As the heat of welding proceeds over this same time, the adhesion of the adjoining bonding layer releases, whereby the outermost metal layer detaches, exposing a clean, new outermost metal layer. The process sequentially repeats until all metal layers have detached.

Abstract: A method and apparatus for controlling arc shielding gas during an arc welding operation is disclosed. The method may include the steps of actuating a first valve connected to an arc initiation source of gas to selectively allow arc initiation gas to flow through a mixing chamber; initiating an arc; actuating a second valve connected to a primary shielding source of gas to selectively allow primary shielding gas to flow through the mixing chamber; actuating the first valve to reduce, if needed, the arc initiation gas flow from the arc initiation source of gas; and continuing with the arc welding operation. The arc welding operation may also include actuating the first valve to cause the arc welding operation to operate in a different metal transfer mode when it is desirable, or when the arc welding operation is nearing completion.

Abstract: A weld pad for an ultrasonic welding horn for welding a battery cell tab is described. The weld pad includes a plurality of inner knurls having at least one sharp edge; and a plurality of outer knurls surrounding the plurality of inner knurls, the outer knurls being shorter than the inner knurls and having a rounded outer edge. A method of welding battery cell tabs using the weld pad is also described.

Abstract: A battery module includes a plurality of electrochemical battery cells positioned adjacent one another and each having a positive cell tab and a negative cell tab. The positive cell tab of a first of the electrochemical battery cells is overlappingly joined to the negative cell tab of a second of the plurality of electrochemical battery cells. Each of the positive cell tabs and the negative cell tabs is not joined to a conductive interconnecting member. At least one of the positive cell tabs or the negative cell tabs defines a flexure configured for reducing stress applied to the electrochemical battery cells during overlappingly joining the positive cell tabs and the negative cell tabs.

Abstract: A battery pack for a vehicle has battery cells with foil cell tabs that are welded to an interconnect. Nickel plated copper is bonded to aluminum for either a first set of the battery cells, a second set of the battery cells or for the interconnect. Similar materials are then adjacent to each other at the weld locations between the foil cell tabs and the interconnect to avoid welding of dissimilar metals.

Abstract: A battery pack for use in a vehicle may comprise battery cells, with each of the battery cells including a main body and a foil cell tab extending from the main body, with the battery cells arranged into a first set and a second set; an interconnect having a first leg, a second leg, and a bridge connecting the legs; first weld locations securing the foil cell tabs of the first set of battery cells to the first leg; and second weld locations securing the foil cell tabs of the second set of battery cells to the second leg. The foil cell tabs or the legs of the interconnect or both may include relief slots extending between the weld locations. Also, the thickness of a set of the tabs may be equal to the thickness of the leg to which they are welded.

Abstract: A welding apparatus for welding a work piece is provided that has a weld gun with a nozzle body having an inner surface defining a cavity, and a distal opening forming a nozzle orifice. An electrode extends in the cavity and is configured to be positionable proximate the work piece. The weld gun is configured to provide a flow of shielding gas through the nozzle orifice. The welding apparatus is configured to position the nozzle orifice at a distance from the work piece sufficient to cause the inner surface to direct weld spatter to a weld pool on the work piece adjacent the nozzle. Additionally, the distance is such that laminar flow of the shielding gas is maintained under the predetermined gas flow rate.

Abstract: A method of minimizing mechanical resonance in an assembly during formation of a vibration-welded joint therein includes positioning work pieces such that they are directly adjacent to each other, and generating a set of control signals that cause one or more sonotrode weld heads to vibrate. A waveform characteristic of a mechanical oscillation of the sonotrode(s) and weld head(s) is varied to minimize the mechanical resonance occurring in the assembly, such as a multi-cell battery for a vehicle. An apparatus for forming the welded joint includes at least one sonotrode having a weld head or heads formed integrally therewith, and a weld controller. The controller is connected to a converter, sonotrode(s), and weld head(s), with the mechanical oscillation occurring in the sonotrode(s) and weld head(s). Variation of the control signals during formation of the welded joint varies a waveform characteristic of the mechanical oscillation, thus minimizing the mechanical resonance.

Abstract: A method of minimizing mechanical resonance in an assembly during formation of a vibration-welded joint therein includes positioning work pieces such that they are directly adjacent to each other, and generating a set of control signals that cause one or more sonotrode weld heads to vibrate. A waveform characteristic of a mechanical oscillation of the sonotrode(s) and weld head(s) is varied to minimize the mechanical resonance occurring in the assembly, such as a multi-cell battery for a vehicle. An apparatus for forming the welded joint includes at least one sonotrode having a weld head or heads formed integrally therewith, and a weld controller. The controller is connected to a converter, sonotrode(s), and weld head(s), with the mechanical oscillation occurring in the sonotrode(s) and weld head(s). Variation of the control signals during formation of the welded joint varies a waveform characteristic of the mechanical oscillation, thus minimizing the mechanical resonance.

Abstract: A battery module includes an electrochemical battery cell having a pair of cell tabs and conductive interconnecting members having one or more interconnect extensions. The cell tabs are welded to different interconnecting members to form welded joints, and each interconnect extension is hemmed with respect to the cell tabs to overlap and reinforce the welded joint. The welded joint can be ultrasonically-welded, while the interconnecting member can have a generally U-shaped profile with side walls formed integrally with the interconnect extensions. A method of minimizing effects of a shearing stress in the battery module includes fusing a cell tab or tabs to the interconnecting member to form a welded joint, and then hemming an interconnect extension of the interconnecting member to form a hem seam overlapping the cell tabs. Fusing can include ultrasonically welding the cell tabs to the side walls or other suitable means.

Abstract: A self-cleaning GMAW nozzle characterized by the inner surface thereof having a laminate group, preferably composed of sequentially alternating layers of metal and bonding material. Over a period of time of welding, welding spatter begins to accumulate upon an outermost metal layer of the laminate group. As the heat of welding proceeds over this same time, the adhesion of the adjoining bonding layer releases, whereby the outermost metal layer detaches, exposing a clean, new outermost metal layer. The process sequentially repeats until all metal layers have detached.

Abstract: A joining operation for a stack of three metal sheets performed using only a single welding step, with access to only one sheet side being required. An inner sheet of the stack has formed therein a pair of bifurcated projections, wherein at least one first apex faces in one direction and at least one second apex faces in the opposite direction. First and second outer metal sheets are assembled with the inner sheet, wherein the first outer sheet abuts the at least one first apex, and the second outer sheet abuts the at least one second apex. A projection welding apparatus welds the sheets, using only access to the first outer sheet superposed the bifurcated projections, wherein a majority of the current flows through the second outer sheet.