Joining apparatus for joining joining elements onto workpieces, comprising a joining element holding device, which is configured to radially hold a joining element, and comprising a loading pin arrangement, which is configured to slide a joining element axially into a holding position in the joining element holding device, and/or to axially support the joining element during a joining process, wherein the loading pin arrangement has a loading pin, which is slidable by means of a loading pin actuator arrangement in the direction of the joining element holding device. The loading pin arrangement is here designed to variably establish a loading pin stroke of the loading pin between at least two stages, so that in a first stage the loading pin is displaceable less far in the direction of the joining element holding device than in a second stage.

The invention provides an ignition flux for arc stud welding, including at least 30 wt % of an active agent, with the active agent selected from a group consisting of SiO.sub.2 and TiO.sub.2. As such, the electric arc can be easily created and smoothly formed. The invention further provides an arc stud welding method utilizing such ignition flux. As such, the fastener and the metal workpiece can be tightly connected together without the need of inserting an ignition tip into the welding portion of a fastener.

The invention provides an ignition flux for arc stud welding, including at least 30 wt % of an active agent, with the active agent selected from a group consisting of SiO.sub.2 and TiO.sub.2. As such, the electric arc can be easily created and smoothly formed. The invention further provides an arc stud welding method utilizing such ignition flux. As such, the fastener and the metal workpiece can be tightly connected together without the need of inserting an ignition tip into the welding portion of a fastener.

The present disclosure teaches systems and methods for robotic welding of studs onto the surface of I-beams. These systems and methods will find industrial applicability in, for example, the steel erection industry.

The present disclosure teaches systems and methods for robotic welding of studs onto the surface of I-beams. These systems and methods will find industrial applicability in, for example, the steel erection industry.

A feeding unit for joining elements includes a connector coupling having a connector plug and a connector socket which may be placed in a connected state or disconnected state with respect to each other. The connector plug has a passage formed around a passage axis Z.sub.S. The connector socket likewise has a passage formed around a passage axis Z.sub.B. In the connected state of the connector plug and connector socket, the axes Z.sub.S and Z.sub.B are aligned with each other along an alignment axis Z.sub.F to allow the flow of joining elements through the connector coupling. When the connector plug and socket are placed in the disconnected state, a locking element of the connector plug moves to a locked position to block joining elements from passing through the disconnected coupling socket.

The invention relates to a refractory anchor comprising an elongated mounting pin having a first end and a second end opposite to the first end seen in the longitudinal direction of the elongated mounting pin, wherein the first end is weldable to an object, the refractory anchor further comprises at least one anchor fin having a first side at least partially connected to the elongated mounting pin. The invention further relates to an assembly comprising an object and a refractory anchor welded to the object, and to a method for manufacturing the assembly.

The invention relates to a refractory anchor comprising an elongated mounting pin having a first end and a second end opposite to the first end seen in the longitudinal direction of the elongated mounting pin, wherein the first end is weldable to an object, the refractory anchor further comprises at least one anchor fin having a first side at least partially connected to the elongated mounting pin. The invention further relates to an assembly comprising an object and a refractory anchor welded to the object, and to a method for manufacturing the assembly.

A setting head for a joining device, such as a press or a setting device, which setting head comprises the following features: a punch which is movable in a longitudinal direction such that a joining element can be joined into a component by means of a punch face arranged at a working end of the punch; a hollow cylindrical receiving sleeve which has a through-passage and which, with the punch in the through-passage, is guided adjacent to the working end of the punch concentrically and axially movably thereon; and two mutually opposite holding arms arranged on the receiving sleeve outside the through-passage each provide at least one laterally inwardly projecting holding end, with the result that the at least two holding ends allow the joining element to be releasably positionable adjacent to a punch-remote outlet opening of the through-passage and by the axially movable working end of the punch.

A stud welding process and a stud welding device for welding a stud to a workpiece are provided, wherein an arc (LB) is generated between the surface of the stud that faces the workpiece and the workpiece by using a pulsed welding current (Is), and the arc (LB) is deflected by means of a magnetic field which is generated by a coil through which a current (I.sub.A) flows. The current (I.sub.A) through the coil for generating the magnetic field for deflecting the arc (LB) is activated synchronously and in anti-phase with the welding current (I.sub.s) by a current (I.sub.A) always being applied to the coil when the welding current (I.sub.s) is at a minimum, and the coil being switched off or the current (I.sub.A) through the coil being reduced to a minimum when the welding current (I.sub.s) is at a maximum.