DE1765169B1 - PLASMA GENERATOR WITH MAGNETIC FOCUSING AND WITH ADDITIONAL GAS INLET - Google Patents

Description

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The invention relates to a plasma layer, mainly when it is used for chemical reaction

generator with magnetic focusing and with nen are used with relatively little

Admission of additional gas into an outside of the efficiency. The arrangement of the electrodes according to

Nozzle located zone, being both a coil, different axes different from that of the nozzle

through which the entire nozzle flow flows, as well as 5 can match, requires a limited of

a throttling caused by the nozzle arranged in the zone of the plasma arc, so that

magnetic core can be used. This plasma also has a low degree of concentration on this

generator generated using a magnetically obtained thermal plasma results,

see box and one outside a nozzle- Such generators can not be used for welders Eddy air jets combine within and io gene, build-up welds or metallizations

are used rotating, concentrated outside the generator and are for special purposes,

Plasma arc, which is intended both for cutting for certain chemical reactions, whereby

of metals as well as for welds, application them by a low efficiency and by

Welding, metallization, chemical reac- a rapid wear of the electrodes is recognized with direct current or alternating current supply 15 are drawn.

can be used, as the ionizing agent the object of the invention is to provide a plasma generator compressed air, To create nitrogen or other gas mixtures of the type mentioned at the beginning, which be turned. an increased stabilization of the plasma arc and a more concentrated, i.e. finer, plasma arc for cutting metals, for build-up welding 20.

ßungen or used for metallizations. According to the invention, this object is achieved by using plasma generators, with or without being able to produce a rotary movement of the arc carried. These generators have a second coil for the plasma arc and a second ma disadvantage that they are provided in arrangements with a transferred magnetic core. Arc oxygen-free gases must be used 25 In particular, as a result of the action of or that at the same time an inert gas, such as B. of two windings and some magnetic Ker-Argon, as cathodic protection is required. From DIE _ne n generated magnetic field, and as a result of sem reason, the known method for the in a located outside the nozzle zone effected cutting of metals, for surfacing the injection of a vortex air stream, the esterification or for metallizations are less economical and 30 application of the air as an ionization gas allows require, due to the low concentration of being achieved, a high concentration of the plasma arc plasma arc, particularly in the cutting of Metal, even len which plasma arc at the same time, a higher consumption of electrical energy i _n a both internally as well as in The exterior of the and have a lower efficiency and a nozzle is offset, lower efficiency. 35 Simultaneously with the injection of an air jet US Pat. No. 3 102 946 also discloses a plasma generator with magnetic focussing in a zone outside the nozzle, other gases in any ratio for the purpose of admitting additional gas, with an increase in the heat content (the enthalpy) is to be introduced into the latter in the nozzle space, the zone of the plasma arc is to be introduced, which means that the performance of the method is not significantly increased in a zone outside the nozzle within the meaning of the invention. The USA patent also increases, energy consumption is reduced, and writing 2 944 140 shows a plasma generator with magnetic focusing using air instead of other gases. In addition, the general economic effectiveness of the method is increased, common plasma generators with magnetic focus. The generator according to the invention can be known in a version in which the magnetic field 45 variant is also fed with alternating current is generated by coils that are either on the gene Use of a single electrode and a rator housing above the combustion chamber or at the outlet or two nozzles isolated from one another, which are arranged on the aisle of the nozzle. These devices have the geometrical axis of the generator are arranged, the disadvantage that due to the scattering of the ma and one phase each of the three-phase system angnetic flow and because no field compressors (field 50 are closed, with oxygen-containing concentrators) are only provided a small gas mixture can be used without achieving focusing efficiency and causing in-electrode wear; as a result of the rotational sequence of the arrangement of the coil at the exit of the nozzle, hung of the plasma arc and directly in which there is no electrode protection. Plasma arc zone introduced after the first nozzle There are also known plasma generators fed with single-phase alternating current, the generator works with additional eddy current gas which reason in the arc circuit of the implementation of the invention and with reference to constant use of a high frequency oscillator with two variants for direct current high voltage pulses on the drawings is required. These genes- 60 or described for AC power supply. It shows rators load the distribution network in asymmetrical Fig. 1 a cross section through the plasma way and can not be used as devices with transmitted generator,
Arch can be used. F i g. 2 a side view from direction C,

The three-phase plasma generators require Fig. 3 a section along ^ 4-vl,

Use of two or three electrodes, from wel- 65 F i g. 4 a section along BB,

For a simple reason the gas used must be free of oxygen F i g. 5 a section along DD,

must and the plasma achieved only a low ionic F i g. 6 an operating diagram for alternating current

has a degree of sizing. Such feeds also work.

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The generator according to the invention generates between the conventional plasma generators that

a tungsten electrode 1 and a nozzle 2, which for this reason a larger gas flow rate

mutually through a ceramic insulator 3 and need.

a textile isolator 4 are electrically isolated, a The interaction between the two magneto-electric Electric arc. The air (or anything else) see fields and the electrical particles of the

other gas mixture) Qp is caused by a nozzle 5 arc zone not only the above-mentioned

introduced into a compensation chamber 6. Concentration of the electric arc, but

Using helical channels provided in the upper which it also causes the electrical light part of an electrode holder Ta bent its location in the geometrical axis of the

6 a , the gas is maintained in a rotating vortex movement compared to the generator, both inside, the speed of which is greater, the smaller, as well as outside the nozzle, after the jet ner the diameter of the lower cone of the elec- has already left the nozzle, which is an essential part of the electrode holder. Way to penetrate the beam into the machin-

After a maximum of speed, the metal contributes without having to do this at the lower end in the space between the ceramic 15 mechanical measures for centering

see insulator 3 and the cone of the electrode holder of the electrode or for centering the nozzle

7 b is reached, an adiabatic relaxation follows with respect to the generator axis required in the zone of the nozzle 2. As a result of the rotation of a would.

on the part of the air and especially the arc, the electrode 1 is both in a thorough manner

its rotation by the generated by a coil 8 20 of the vortex movement executing gas

magnetic field is effected, which is cooled by as well as by the cooling water, the

a core 9 concentrated a second of the cooling water in the electrode holder 7 α through a field

Windings 10 and a core 11 generated field nozzle 14 introduced and through another Stut-

is superimposed, a zen 15 is removed again in the zone of the electrode (Fig. 3). By the same

high vacuum is generated, which is an oxidation nozzle 15 is also the generator via a

protection of the electrode. in the water pipe 17 inserted cable 16 with electrical

As a result of the rotation of the plasma arc and the fresh energy fed (Fig.5). As a result of the kegeli plasma jet and under the influence of the strong formation of the lower part of the electrode gene magnetic field, the holder Ib in the outer zone (Fig. 1), the tungsten electrode is up from the windings 10, through which the overall 30 to the level of the cathode spot and is cooled to the current of the nozzle flows, is generated, this is also protected against oxidation, a negative pressure outside the nozzle. In this low pressure cone, an air jet is compliant through a nozzle 12 and there is a negative pressure (metane gas, hydrogen, etc.) injected into the working gas (which can be used as a jet of any other gas mixture, including air) The generator provided between the nozzle and a copper ring 13 and with helical, helical channels α of the air ends seen between the nozzle 2 in the electrode holder space on the other hand, is a thorough cooling Isolators 3 and 4 and a part 18 of the nozzle or gas jet set in a whirling motion provided channels b for the removal of a. Provided by the superposition of the actions 40 part of the gas quantity Qp,
on the one hand the strong non-magnetic field of the gas QE extracted from the discharge space of an ejector combustion chamber, which field is sucked off by the windings 10 19 before it is generated for the ionization and concentrated by the core 11, and again through the nozzle 12 on the other hand of the vortex air jet (or the lower part of the vortex gas, together with that of the jet), the electric arc is generated in the air Qs introduced into the outside space (or between the electrode 1 and the corresponding gas mixture), and carries concentrated on this workpiece P to be machined. Way both to an additional cooling of the

Furthermore, the extremely high Drehgeschwindig- nozzle 2 causes as well as the concentration of the light the electric arc and the plasma arc outside the nozzle, as well as the rotary movement Beam, which also contains the neutral gas particles in the 50 of the arc and ultimately to increase the enthalpy of the plasma after its exit from the an increase in the vacuum in the electrode zone, nozzle.

whereby a protection against oxidation of the electrode obtained by the nozzle 19 of the ejector 19 is α gas is a mixture (or air) introduced under pressure Qs, WEL

The mutual action of the one hand creates a depression in the chamber of the ejector 19, the windings of the lower part of the generator. The chamber of the ejector, which, after the electromagnetic forces, on the other hand that of the depression, is in contact with the channels b , sucks the vortex movement of the external air caused by part of the gas-mechanical forces introduced through the nozzle 5, which causes the electrical quantity Qp to be absorbed. The absorbed gas QE penetrates from the arc outside the nozzle, its rotary 60 the chamber of the ejector 19 into the nozzle 12, maintains movement and in the geometric axis where it remains with the gas mixture (or the air) Qs of the generator. mixed. As a result of the conical interior

This rotational movement causes the arc FER of the connection piece 19 α is the speed of the Gasner that the particles of the outer zones increases the light mixture (or air) Qs, and desbogens have a high kinetic energy, 65 for forming in the Chamber of the ejector 19 what a substantial elimination of the melted a depression. The gas mixture, which results from gas of metal from the separation zone without resulting in this QE and the gas mixture (or air) Qs , is intended to use an axial gas jet, as is done through the nozzle 12 in the between the

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Nozzle 2 and the copper ring 13 located ca The generator according to the invention allows the nälen α introduced. Ignition and the stable existence of an electric The nozzle is cooled in a direct manner by the arc c between an electrode 29 and a water flowing through the nozzles 20 and 21 g. 4). 5 arc d between the electrode 29 and the nozzle 31 For the supply of electrical energy and finally an arc e between the cable 22 (FIG. 1) is provided, furthermore the intermediate nozzles 30 and 31, the mentioned arcs between piece 23 α and the non-insulated copper tape - occur in the order of the phases and one turns of the series-connected coil windings - the same sense of the arc currents through the polarity 10. The turns of the coil 10 are verio potentials of the electrodes or the two nozzles the screw 23 b is correct with the part 18 of the nozzle. Connected as a result of the rotation of the arc. and the high speed of the gas flow For the sealing of the nozzle, the seals are provided with a constant change of the nozzle anode spot 24 and 25, which takes place through the core 11, while the position of the cathode spot on the electrode 29 is fixed by screwing against the body 18 is kept unchanged and which are drawn. Electron emission causes, whereby as long as the po- For the sealing between the two parts of the tential of the electrode is more negative than that of the two electrode holders 7 a, 7 b , rubber seals 26 nozzles are also an acceleration of the electrons and 27 are provided, which with the screw nut in the ionized zone of the two arcs c 28 are attracted. Since the wear of the elec- ao and d takes place and consequently the existence of the trode is extremely small, no diesbezüg- respective currents Liehe feed devices is made possible, is required. Since an extensive cooling of the two nozzles, which is also used with a calibrated electrode, this can be favored by the rotation of the two arcs in the desired position only through pressure clamping, preventing damage to the nozzles, which for this purpose is in the lower part of the electric - 35 The effects of the electromagnetic dredge holder provided seat are maintained. If the vacuum generated in the electrode zone and the plasma generator for welding connection zone of the first nozzle are similar or intended for build-up welding, the example of the first variant uses a welding wire instead of the electrode.

which is set in a feed motion from the outside. On the basis of these considerations it can be seen that will. In the second example of the realization of the invention, the nozzles 30 and 31 are successively called catho fields by the two magnetic dung caused electromagnetic centering of the can work without causing damage Arc and plasma jet allows. suffer, and such a permanent, stable existence The efficiency of the welding work or the 35 allow the arc. Because through the in series During build-up welds, the current of the corresponding coil 32 or 33 is also switched by the rotation The upper part of the arc flowing in the cathode-end nozzle changes simultaneously with the zone significantly increased, the above-mentioned direction of the current also being the direction of the magne-rotation, as an effect of the field of the in series tables field, so that the interaction between switched coil, in the opposite sense of the magnetic field and the electric arc Rotation taking place within the nozzle maintains the same direction of rotation of the light. 'bogens causes.

These two in the opposite sense of the two examples of realization

going rotations, on the one hand the arc of the invention corresponding generator has fol-

45 advantages within the nozzle and the plasma jet:

half of the nozzle, and also those of the gas inside as a result of the concentration of the arc and and outside the nozzle cause heat to be exchanged inside and outside the nozzle very high efficiency, which counteracts both rotation in one of the gas flow, that the entire amount of gas introduced is ionized in the sense of a very high efficiency is sated. 50 and a very high capacity of the general

Achieved when using the generator for metallizer.

As a result of the rotation of the arc and the gas, the metal or ceramic powder becomes the same simultaneously with the working gas through the Stut beam and as a result of this in the cathode 12 introduced. In this case, the vacuum created on the zone is partially removed by the outer wall the nozzle 2 arranged channels after removal of a quantity of gas at the level of the electrode, aligned with the generatrix of the cone. In all without this amount of gas through the nozzle channel In some cases the generator can with or without overflow, the generator can use air or as the working gas work your bow. Use gas mixtures with a high oxygen content, due to the extremely high speed of rotation without the need for inert gases for cathodic protection Gas and the through the outside of the nozzle 60 the, whereby the recovery of the working gas taking place rotation of the plasma jet and by reintroducing it into the outside of the electric arc caused cooling of the nozzle located discharge zone to the economic nozzle 2, the generator according to the invention can also be used for cutting, welding or metallization AC single and multi-phase systems have contributed in the past.

be turned. In the following a two- 65 By using a quantity of gas for the

tes example for the implementation of the invention cooling of the electrode and by the same

described, in the case of an alternating current storage time, high vacuum generated in the cathode zone

sung. as well as by reusing the same

Amount of gas outside the nozzle, where the same cooling and the same negative pressure is effected, can the cooling water requirement is partially reduced or it can be dispensed with entirely.

The introduction of gas mixtures outside the nozzle, in whatever proportion, to increase the Enthalpy of the plasma arc or by releasing the stored energy into the cutting, welding or In addition to increasing the efficiency, the metallization zone also enables a much better one Penetration into the base metal or enables the generator to be used when cutting metals for cutting sheet metal of greater thickness.

By introducing gas mixtures into and through a zone outside the nozzle the electromagnetic rotation of the outside by means of a series-connected coil The arc located in the nozzle creates a negative pressure and intensive local cooling achieved by the nozzle, and a pronounced concentration of the arc is also brought about.

By using the series-connected coil, when using the arrangement with transferred arc the possibility of the formation of a secondary arc between the nozzle and the plate completely excluded.

The generator can also be operated with one or two-phase or three-phase current.

When using the appropriate gas mixture, the generator can be used without any design changes, for welds as well as for metallization or for build-up welds be used.

Claims (6)

Patent claims: 1. Plasma generator with magnetic focus and with inlet of additional gas in a zone outside the nozzle, with both a coil through which the entire nozzle flow flows, as well as a magnetic core arranged in the zone of the plasma arc are used, characterized by 'Net that to generate a rotary movement of the plasma arc, a second coil (8) and a second magnetic core (9) are provided. 2. Plasma generator according to claim 1, characterized in that the coils are connected so that the rotation of the arc outside the nozzle (2) and the gas jet in the opposite sense to that of the gas introduced outside the nozzle, which through helical or straight channels that are on the side face of the nozzle and one Copper or clamping ring (13) are provided, is introduced so that a Negative pressure occurs in the zone surrounding the nozzle. 3. Plasma generator according to claim 1 or 2, characterized in that for the cooling and the generation of a vacuum in the vicinity of the electrode (1) the partial removal of the gas quantities (Qp) as a result of the suction of part of this gas (QE) through the ejector (19) is used; the sucked gas (QE) with the gas mixture (or air) (Qs), which is introduced under pressure in the ejector through the nozzle (19 α), is mixed into the nozzle (12) and therefore a depression appears in the chamber of the ejector ; through the nozzle (12) the resulting gas mixture from the ejector (19) is introduced into the space with helical channels (a) between the nozzle (2) and the copper ring (13), and thereby an additional one in the vicinity of the nozzle (2) Cooling and a vacuum and concentration of the arc appear in the zone between the frontal surface of the nozzle (2) and the copper ring (13) and that between the insulators (3) and the magnetic core (9) or the insulators (4) and part (18) of the nozzle (2) provided helical channels (b) allow a partial removal of the gas quantities (Qp) . 4. Plasma generator according to claim 1, 2 or 3, characterized in that when fed with three-phase current, two nozzles (30, 31) are connected to two phases (S, T) , while the electrode (29) is connected to the third phase (R) connected. 5. Plasma generator according to claim 4, characterized in that to achieve chemical Reactions at very high temperatures with a three-phase current feed into the reaction gas Space between the nozzles (30,31) is introduced. 6. Plasma generator according to one of claims 1 to 5, characterized in that when used for metallizations, the metal powder is introduced together with the gas mixture through an ejector (19), while for use for welds and build-up welds, the corresponding wire is in the channel of the Electrode holder (7 a, 7 b ) is inserted in place of the electrode (29). 1 sheet of drawings COPY 109 535/127