RU2053076C1 - Torch for plasma working - Google Patents

Abstract

FIELD: welding. SUBSTANCE: torch for plasma working has three nozzles: plasma-forming inner, central and outer. Outer surface of plasma-forming inner nozzle and inner surface of central nozzle are made equidistant and part of inner surface of plasma-forming nozzle bordering on outlet duct is produced in the form of surface of evolution with sinusoidal generatrix with distance C between its vortexes being equal to 1=(0.3-0.5) C, where C is distance between outer surface of plasma-forming nozzle and inner surface of central nozzle. Such design makes it possible to ensure stability of compressed arc during surfacing with inverse polarity. EFFECT: improved stability of compressed arc. 2 dwg

Description

 The invention relates to devices for welding and surfacing by a plasma arc, and in particular to devices for surfacing surfaces using wire or powder supplied as a filler material to a zone of a compressed arc.

 The closest in technical essence and the achieved result is a device for plasma-arc processing of electrically conductive materials, containing a non-consumable electrode, stabilizing and focusing nozzles.

 However, in the known device of the burner, an auxiliary arc can be formed in various places along the height of the chamber formed by the outer surface of the water-cooled electrode and the inner surface of the stabilizing nozzle, which leads to erosion of the surfaces of the electrode and nozzle and burner failure.

 The purpose of the invention is to ensure stable operation of the torch for surfacing on the reverse polarity and increase its life.

 In FIG. 1 shows a burner, section; in FIG. 2 node I on an enlarged scale.

 The burner contains a water-cooled non-consumable electrode 1, a plasma-forming nozzle 2, the inner surface of which forms a chamber with an outer surface of the electrode for excitation of the auxiliary arc 3. The burner has a middle focusing nozzle 4, the inner surface of which forms a channel 5 for feeding the filler powder with the outer surface of the stabilizing nozzle. The burner also includes an external nozzle 6 for supplying a protective gas. The end surface of the chamber 3 is a rotation surface with a sinusoidal generatrix with a height between its vertices equal to (0.3-0.5) C, where C is the distance between the outer surface of the plasma forming nozzle and the inner surface of the focusing nozzle. If the height l is less than 0.3 C (for example, l = 0.25 C), then stable operation of the burner is not ensured due to the fact that the auxiliary arc moves along the axis of the burner in the chamber, causing erosion of the walls of the chamber and electrode. In addition, there is no additional compression of the arc, which leads to an additional consumption of plasma-forming gas. If l is greater than 0.5 ° C (for example, 0.6 ° C), then the outflow of the plasma-forming gas occurs in a turbulent mode, which also negatively affects the operation of the burner.

 A torch for surfacing with a compressed arc when working on reverse polarity works as follows.

 In the chamber 3, an auxiliary arc is excited. At the same time, plasma-forming gas is supplied to it. Powder material is introduced through channel 5 using a conveying gas, which, passing through the lower part of the chamber, enters a compressed arc, and then onto the product. To protect against oxidation of the alloyed surfaces, a protective gas is supplied through the channel between the focusing nozzle 4 and the protective nozzle 6.

 In the case of reverse polarity operation, the proposed burner ensures the stability of the compressed arc; the auxiliary arc burns only in the end part of the chamber and does not shift along the height of the burner. At the same time, the degree of compression of the arc increases and the consumption of a plasma-forming gas, for example argon, decreases, the burner operation time increases by 2 times in comparison with the known devices of plasma torches during surfacing on reverse polarity.

Claims (1)

 A PLASMA TREATMENT BURNER containing a non-consumable electrode located in an internal plasma-forming nozzle having a central output channel, as well as a middle and external nozzle, characterized in that, in order to ensure the stability of the compressed arc during surfacing on the reverse polarity, the outer surface of the plasma-forming nozzle and the inner the surface of the middle nozzle is made equidistant, and the part of the inner surface of the plasma-forming nozzle adjacent to the output channel is made in the form of a surface of revolution with nusoidal generatrix, the distance l between the vertices of which l = (0.3-0.5) • C, where C is the distance between the outer surface of the plasma forming nozzle and the inner surface of the middle nozzle.

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