Abstract: The invention relates to a plasma torch in which the position of the electrode (4) with respect to the orifice (11) of the plasma nozzle (5) can be adjusted. The electrode (4) is mounted on the body (3) of the torch via a ball-and-socket joint (14), whereby the electrode (4) can be rotated supported by the joint (14) thus facilitating the alignment of its tip in the center of the orifice (11) of the plasma nozzle (5). The ball part (14) of the joint is clamped in the socket (15) by means of a tightening bushing (16). The plasma torch electrode (4) is fixed to the pivotal joint (14) by way of a longitudinally adjustable assembly (12, 17, 20, 25), whereby the tip of the electrode (4) can be moved with the help of the adjustment assembly (12, 17, 20, 25) to touch the nozzle (5) thus effecting the alignment of the electrode in the pivotal support of the ball-and-socket joint (14) and under the guidance of the sliding tip of the electrode (4) to the center of the nozzle orifice (11).

Abstract: An assembly suited for feeding a powderized filler material in plasma welding. The invention is based on feeding the filler material flow first along a first channel, which is next divided into two separate channels that are branched aside from the first channel. The forked branches can further be divided into a plurality of branches, and according to an advantageous embodiment, the manifold of feed channels exits into a feed nozzle of shielding gas and powderized filler material. The nozzle is provided with a plurality of grooves along which the gas and powderized filler material enter the welding plasma of the torch, and the gas flow becomes laminarized. The shielding gas and the filler material can be fed along a single manifold of channels and the tip of the torch can be made extremely small in size.