Electric heating – Metal heating – By arc
Patent
1997-12-29
1999-12-14
Paschall, Mark
Electric heating
Metal heating
By arc
219 75, 21912152, 31323151, B23K 1000
Patent
active
060020962
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention relates to a plasma torch with a transferred electric arc, a device for delivering the plasma gas in a vortex, thermal insulation on the outside of the torch, and an equal potential between the torch nozzle and the metal outer housing of the torch.
Plasma torches are realized by stabilizing an electric arc in a carrier gas. The simplest way to do this is to use a graphite electrode with an axial bore, through which the carrier gas flows into the electric arc that develops between the electrode and the material being melted. Along with these graphite torches, there are also cooled metal torches. They can be divided into two categories, torches with a non-transferred arc (indirect torches) and torches with a transferred arc (direct torches). In indirect torches, the electrode and counter electrode are integrated in the torch. In direct torches, an electrode is disposed in the torch, and the counter electrode represents the material to be treated. The introduction of the plasma gas is done either axially, thereby bathing a bar-like electrode, or tangentially into a gap that is located below a cooled hollow electrode. A gas vortex forms in a spiral in this hollow electrode. The bottom point of the arc is thereby moved over the inside surface of the electrode, and as a result the most uniform possible electrode abrasion takes place. The known embodiments are very vulnerable to malfunction and tend to form vertical electric arcs. This leads to rapid destruction of the electrode and to torch failure.
In addition, very high thermal losses occur. In some embodiments, the rotation of the arc is reinforced by auxiliary magnetic fields. These torches are available in an indirect embodiment (for instance from Union Carbide/Linde and Westinghouse) or in a direct version (for instance, Plasma Energy Corp., Retech).
In direct gas vortex plasma torches, the spacing between the electrode and the counter electrode in industrial application is generally not constant, since the material to be treated provides the counter electrode. This is true particularly for waste treatment, where the material to be treated is not distributed uniformly. When gas or dust is produced or when conductive layers develop because of dust deposits or condensation on torch parts, additional problems in operation arise. Disturbances in the gas vortex occur, with resultant local severe abrasion of the electrode that reduces its service life. Conductive layers lead to parasitic currents, which lead to secondary arcs that damage the torch. If the torch is accidentally extinguished during operation (for instance upon contact with a relatively large amount of nonconductive charge material), the local suction effect of the gas vortex can cause dust to be aspirated into the torch, which soils it and makes for deficient plasma gas supply; this makes further operation impossible, and the torch can be destroyed.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a plasma torch that overcomes the disadvantages of the known embodiments.
According to the invention the plasma torch with a transferred arc comprises an outer housing, a hollow electrode arranged in the outer housing and a gas vortex generator device including a rotationally symmetric ring associated with the hollow electrode and an impact wall associated with the symmetric ring. The rotationally symmetric ring is provided with at least two rows of circumferentially distributed throughgoing holes for delivery of a plasma gas to the electrode, the rows of throughgoing holes are arranged one above the other in an axial direction in the symmetric ring and an upper one of the at least two rows is associated with the impact wall, so that the plasma gas passing through the upper one of the at least two rows of the throughgoing holes impinges tangentially on the impact wall, whereby a two-part gas vortex flow is formed.
Various preferred embodiments of the plasma torch are described hereinbelow and in the appended claims.
In a preferred embodime
REFERENCES:
patent: 5262616 (1993-11-01), Labrot et al.
patent: 5296672 (1994-03-01), Ramakrishnan et al.
patent: 5374802 (1994-12-01), Dorfman et al.
patent: 5688417 (1997-11-01), Cadre et al.
Hoffelner Wolfgang
van der Haegen Patric
Zeman Alex
MGC-Plasma AG
Paschall Mark
Striker Michael J.
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