A pickup mechanism for feeding of weld pins from a magazine to a welding electrode of a welding gun, where the pickup mechanism is attachable to the welding gun in connection to the welding electrode, and where the magazine is attachable to the pickup mechanism, the pickup mechanism comprises a movable pickup lever arm displaceable between a pickup position and a delivery position, where the pickup lever arm is adapted for displacing the weld pin from a pickup position in the magazine to a welding position at the welding electrode; wherein the pickup lever arm has a pickup part comprising a feeding portion for feeding the weld pins from the pickup position to the welding position, where the pickup part comprises a retrieving portion arranged with a sliding surface for displacing the pickup lever arm in a direction essentially perpendicular to the direction of the movement between the delivery position and the pickup position when the sliding surface is in contact with a first weld pin in the magazine, and when the pickup lever arm moves between the delivery position and the pickup position to pick up the first weld pin, where the pickup part is configured such that the sliding surface bridges the first weld pin to the feeding portion at a predetermined position of the pickup lever arm, and such that the first weld pin engages the feeding portion in the pickup position.

A control unit and method for a joining system having at least one joining station, which is designed to join at least one first joining element to a workpiece, determines actual data with respect to a first joining element joined to a current workpiece by the joining station. The control unit and method determine, in accordance with the actual data, a subsequent control instruction for the joining station for joining a first joining element to a subsequent workpiece.

A welding device for welding a stud to a substrate along a welding axis in a welding direction, comprising an inert gas cover with an inert gas inlet arranged as a ring around the axis, with an inert gas outlet, and an opening facing the welding direction, the opening having transversely to the welding direction an opening diameter, wherein the inert gas inlet is at an inlet distance from the opening counter to the welding direction, wherein the inert gas outlet is at an outlet distance from the opening counter to the welding direction, and a holding device holding the stud within the cover during welding, the holding device having an outside diameter and a stud receptacle with an inside diameter, wherein the outlet distance is at least half of a difference between the opening diameter and the outside diameter or at least the same size as the inlet distance.

A stud for fastening an attachment element to an underlying surface is provided, having a shank that defines a fastening direction, having a sealing element for sealing off a contact zone between the shank and the underlying surface, and having a force transmission element for transmitting compressive forces from the attachment element to the underlying surface.

A device for holding a stud with a radially flange and an axial shank. The holding device comprising a collet including a clamping section and a hollow insertion section defining an insertion axis such that the stud can be inserted via the insertion section to the clamping section. The holding device further comprising a tubular securing sleeve located radially inward of and concentric with the insertion section. A clearance is defined between a bottom end of the securing sleeve and a top end of the clamping section and is adapted to releasably receive the stud flange. A first air flow channel in a first direction is adapted to blow feed the stud into the collet; and a second airflow channel oriented in a second different direction is adapted to maintain the stud shank substantially in line with the insertion axis.

A composite floor structure with a new metal decking having openings over the theoretical center of underlying support I-beams which now allows top flanges of beams to be painted and a welding zone for stud shear connectors within the openings then cleaned of paint, galvanizing and contaminates. The openings, which include deck caps if needed, allow visual inspection regarding the deck being tight against the beam and are spaced across the metal decking to provide a desired number of stud shear connectors and facilitate finding the center of the I-beam, provide a clean weld surface and minimize arc blow, weld fumes, weld time and required weld current. The thickness of the deck is no longer limited, and neither are the number of sheets stacked upon one another. All of which provide increased safety, efficiency and quality assurance while helping to control risk management.

A setting welding device is set forth for setting stud-like auxiliary joining parts in a plurality of layers of material and subjecting them to a mechanical-thermoforming process on a second layer of material and connecting them to said second layer by way of a welding operation. For this purpose, the punch is used to apply to the welding auxiliary joining part mechanical and thermal loads that follow prescribed characteristic force and current curves. Furthermore, a corresponding connecting method that can be realized with the aid of the setting welding device is also disclosed.

A setting welding device is set forth for setting stud-like auxiliary joining parts in a plurality of layers of material and subjecting them to a mechanical-thermoforming process on a second layer of material and connecting them to said second layer by way of a welding operation. For this purpose, the punch is used to apply to the welding auxiliary joining part mechanical and thermal loads that follow prescribed characteristic force and current curves. Furthermore, a corresponding connecting method that can be realized with the aid of the setting welding device is also disclosed.

A device for holding a stud with a radially flange and an axial shank. The holding device comprising a collet including a clamping section and a hollow insertion section defining an insertion axis such that the stud can be inserted via the insertion section to the clamping section. The holding device further comprising a tubular securing sleeve located radially inward of and concentric with the insertion section. A clearance is defined between a bottom end of the securing sleeve and a top end of the clamping section and is adapted to releasably receive the stud flange. A first air flow channel in a first direction is adapted to blow feed the stud into the collet; and a second airflow channel oriented in a second different direction is adapted to maintain the stud shank substantially in line with the insertion axis.

A portable drawn arc stud welder apparatus with a lithium ferrophosphate (LFP) battery and stud weld battery control system (SWBCS) is provided for welding a stud onto a workpiece. The portable drawn arc stud welder apparatus includes a housing, an LFP battery disposed in the housing and including a plurality of LFP battery cells, a weld stud gun configured to hold a stud and is electrically connected to the LFP battery for receiving energy from the LFP battery to pass a current through the stud and the workpiece to form a weldment. The SWBCS is disposed in the housing and electrically connected to the LFP battery of the portable drawn arc stud welder apparatus. The SWBCS includes a computer, a memory, and instructions therein to implement control and monitoring of the operation of the portable drawn arc stud welder apparatus.