Provided is a fabrication square for aligning workpieces. The square includes a triangular shaped base, a first arm, a second arm, and a relief cut where the arms intersect the base. The arms extend away from the base at a 90-degree angle. The base and first arm further include a series of holes that match the hole pattern found on a conventional metal fixture table, while the second arm includes a slot to allow for rotation. The square can be aligned with and attached to the fixture table with one or more fixture stops that secures the square to the table via the holes. The use of the square, fixture stops, and table lock the workpieces in position, which in turn prevents movement before, during, and after welding, thereby increasing fabrication precision.

An integrated plasma cutting system includes a plasma cutting power supply and a motion control device to move a torch along a desired cut path relative to a workpiece. The system also includes a torch height control device to adjust a gap between a tip of the torch and the workpiece and a gas control device to regulate a gas used in the integrated plasma cutting system. The system further includes a centralized controller that includes an integrated microprocessor architecture that controls a sequence of the plasma arc, controls the regulation of the gas used in the integrated plasma cutting system gases, and controls coordination of the movement of the torch along the cut path with adjusting the gap without aid of an intervening microprocessor architecture in any one of the plasma cutting power supply, the motion control device, the torch height control device and the gas control device.

A debris removal tool for removing debris from a first slat and a second slat includes a housing and a handle coupled to a base wall of the housing. A first axle is disposed on a second side of the housing. A first slat engagement mechanism is disposed on the first axle engaging the first slat. A second slat engagement mechanism is disposed on the first axle spaced apart from the first slat engagement and engaging the second slat.

Systems and methods for producing mesh from wires or rods with programmed changeable steps for the longitudinal and transverse wires. The longitudinal wires (1) and the transverse wires (12) may be fed from coils or be precut. The longitudinal wires are fed in receptacles (2) on carriers (3) with the carriers being found on prefeeder carrier (4), a feeder carrier (6) with grippers (7) transports them towards the welding heads (10) and the produced mesh (20) is received by a mesh carrier (14). The carriers (3) with the receptacles (2) for the longitudinal wires on the prefeeder carrier (4), the grippers for the longitudinal wires (7) at the feeder carrier (6) and the welding heads (10) are displaced in the direction of the transverse wire without restrictions, generally in an unrestricted fashion, so as to correspond to the longitudinal wires being subjected to welding. The transverse wires are fed towards the welding heads to be welded with the longitudinal wires. The machine produces meshes with openings, grouping the longitudinal wires in groups and feeding the groups of longitudinal wires towards the welding heads, adjusting the position of the related mechanisms to the position of the longitudinal wires.

A laser containment device, adapted to be mounted to a laser head, has an outer shell and an inner wall defining a peripheral chamber there in-between. An inner seal and an outer seal, respectively mounted to the outer shell and to the inner wall, are adapted to contact a workpiece. The peripheral chamber, encircling an opening in the laser containment device for letting a laser beam reach a workpiece, may be connected to a differential pressure generator operative to generate a differential pressure therein. A pressure sensor is located within the peripheral chamber to read the differential pressure. In use, the laser head, mounted to a computer-controlled manipulator, emits its laser beam. The pressure sensor sends its pressure readings to a controller which compares their values with a predetermined pressure threshold. If the pressure readings cross this threshold, the controller stops the emission of the laser beam.

An apparatus for manufacturing a secondary battery includes: an index table configured to receive a secondary battery cell, the secondary battery cell including an electrode assembly, a can accommodating the electrode assembly, and an electrode tab between the electrode assembly and the can to electrically connect the electrode assembly to the can; a laser scanner configured to irradiate laser onto an outer surface of the can to weld the electrode tab to the can; and a controller configured to variably control the laser scanner according to an operation of the index table.

Embodiments of multipurpose workstations are disclosed having a small, portable housing that defines an interior space, into which a conductive, uneven surface having a plurality of differing heights is disposed. The conductive surface can include a plurality of openings sized and disposed to provide for an air gap within an opening or below the surface. The workstations can further include an upper removable conductive flat metal surface, and a tray disposed below the uneven, conductive surface that collects material that passes through the openings.

A laser cutting tool with protective enclosure assembly for manipulating a workpiece on a movable platen includes a frame, a top protection assembly, a middle protection shield, a bottom protection assembly and a laser torch head. The top protection assembly, middle protection assembly, and bottom protection assembly are removably mounted to the frame such that they form a cavity enclosing only substantially the laser torch head.

A production system and method for producing different shell assembly variants of specific vehicle types is disclosed. The system has several clamping frames adapted to the different shell assembly variants for receiving respective component variants, a magazine in which the clamping frames can be positioned, a clamping station by which, in accordance with a presettable production sequence of the shell assembly variants, the corresponding component variants can be positioned on the clamping frames in a respectively preset joining arrangement, a joining station by which, in accordance with the presettable production sequence, the component variants positioned on the clamping frames can be connected to each other to form the corresponding shell assembly variants, a transport device by which, in accordance with the presettable production sequence, the corresponding clamping frames can be moved to and from the magazine, the clamping station, and the joining station exclusively in translation in a plane.

Systems and methods for producing mesh from wires or rods with programmed changeable steps for the longitudinal and transverse wires. The longitudinal wires (1) and the transverse wires (12) may be fed from coils or be precut. The longitudinal wires are fed in receptacles (2) on carriers (3) with the carriers being found on prefeeder carrier (4), a feeder carrier (6) with grippers (7) transports them towards the welding heads (10) and the produced mesh (20) is received by a mesh carrier (14). The carriers (3) with the receptacles (2) for the longitudinal wires on the prefeeder carrier (4), the grippers for the longitudinal wires (7) at the feeder carrier (6) and the welding heads (10) are displaced in the direction of the transverse wire without restrictions, generally in an unrestricted fashion, so as to correspond to the longitudinal wires being subjected to welding. The transverse wires are fed towards the welding heads to be welded with the longitudinal wires. The machine produces meshes with openings, grouping the longitudinal wires in groups and feeding the groups of longitudinal wires towards the welding heads, adjusting the position of the related mechanisms to the position of the longitudinal wires.