DE1514440A1 - Plasma torch - Google Patents

Description

The invention relates to plasma torches for heating gases in an arc chamber in which an arc circulates between electrodes.

In such a plasma torch there is a continuous gas flow heated in an arc, whereby the enthalpy of the gas is increased. If the gas is brought to a high flow velocity by means of a Laval nozzle, this is how you can build jet propulsion systems and supply wind tunnels according to this principle. On the other hand, the high "fermentation temperatures also directly - such as for

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Hare disconnectors with rotating arcs are extremely honex Particularly suitable, as local overheating of the Ijlektjroden, which is accompanied by evaporation of the electrode material « can be prevented. A relatively large electrode surface can be sufficiently cooled by water if the base points of the arc are crossed at high speed Can rotate electrode surfaces. Da3 can be opened by creating a Achieve magnetic field whose field lines run perpendicular to the arc. Rotating arcs are to be used especially when in the case of aggressive working gases, electrodes made of heavy metals such as tungsten can not be used, but low melting If metals how to use copper.

With plasma torches and especially with those with a rotating arc, the problem arises, as large a proportion of the To lead quantities of gas through the arc zone and then to mix all of the working gas as well as possible. In principle, you can Let the arc burn radially between the coaxial cylinder electrodes or between cylinder electrons of the same size, which are mutually exclusive facing axially, in the axial direction. In both versions, the gas flow penetrates the arc essentially vertically.

In the case of plasma torches, there is often a need to convert the im'Brenner Power, i.e. the arc length, to change during operation.

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. /.J:ti3.i P PY H 440.0

trnoui- «oak PU 65/1197 Ιίο / Qi · b

The finding now gives the insight that with an enlarged ¹ ! Liektrodenabotand and constant GatKlurcIisatu dio nicdrißoro GaonlTönungfjgoechY / indißkeit doa LiolitTiOiron oincn erößeron Quepochnitt olnnchmon 1IiQt ₉ dor the Iiointiuictmtelßßrung entgeßenwirkt * .7rhüht.nön nndprorooito don Gacaurchnata to the bifilieriße ßtrU multi-; niieocliivindißl: oit in dor ticIitüo ^ onconQ maintain · oo qu3 a Larger Gaomeng © be increased · Boidc Effelcto act on the increase in normal temperature

T.ii v.-ird ala task nnccoohon, the Loiatung doo Pltioraabronnfere in v.'anrentlicn could! On) Eloklrodenabotnnd vrirkoam cu boeinflueoon »P.ibüi should also dia mitto Gnantongo» dio by the uulnufonto veritohrclo dio ßuiU oriEono hlndurehritt »woitaehond koncUmt cohaltun v; ordon · Dio tUouna" diobor Aufjpbe applies \) 0l riasmabrcnnornsua catching up from Gnaon in elnar light bulbs, in which an electric arc euloehcnalt kon the ollow in the picture on, ceiulfi der Urfindunij dndby that dsr koniacho Rinßopalt in:> oinor Veite by an Otelltriob verinderinr .iet and that before dom

Suführuncon für Arbeito ^ ao in nichtunc der Lichttnnngentinl nUtidr.n · This allows a

only through the gasotr ^ i-unü hcrbeice-filled. BoI d v. 'is the Mchtbo ^ nunilMuf unterctUtat.

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The job will take a relatively long time:; o Since eehrä £ through don. lichthcjjoii ^ oi leads. Booondern v / eacntlich is, however, boi olnon Hrnncr r.vit a cylinderelactrodc 'nlt koniochem An «€ itr., Ir \ <iio an axially vcri5tollb.?.re" cntralolehtrcdo fitted int, dßß in abhüi] {; i £ keiu from the Width deö l: onucfUrniiscn Hingspalteo awisclion den Blcktrorlea der ■ IiicIitbosenfuSpnnkt on the cylinder electrode in Cscstroa from dor Zeatralclel: trodo fort ^ oblccon v / ird, whereby iiich change constantly diu in dor iiclitjonodurch ^ nkata. Dnboi vcrbroitcrn Betricbainotabili- % fiten in desirable 'noicc the prcubroito the Lichtbojcna on the cylinder electrode.

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Haeh eintffl well-known suggestion is prepared to prepare two, other rigidly arranged electrodes to form ao that a control center Electrode with an essentially cylindrical electrode form a conical Bingepält in the gas supply to the arc. However, this arrangement has the major disadvantage that the arc power, can only be influenced via the gas throughput.

Further features essential to the invention are to be explained in more detail with reference to an exemplary embodiment shown schematically in the drawing. _f ■

The plasma torch is shown in the drawing eo as it is seen after an axial section. A cylinder electrode I has a conical approach 2 into which a central electrode 5 fits its conical shoulder approach 4. A kin // angle of 60 ° between the cone wall and the cylinder axis has proved to be particularly useful. The central electrode is designed to be plate-shaped towards the arc chamber and has a rim 6 from which the arc 7 burns to the cylinder electrode 1. The cylinder axis is marked with 8. The conical annular gap between the ülektrüdenansiitzen 2 and 4 merges into an enlarged, essentially cylindrical ring 9 with several or one tangentially opening supply pipe 10 for supplying a working passage. The central electrode 3 has a holder 11 which can be adjusted axially in a neck piece: \ 2 , as indicated by the double arrow 13. With an annular excitation winding is designated. When excited, the field lines running axially in the arc chamber 5 cause the arc 7 to rotate.

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The magnetic field has a particular effect on the base of the arc, which describes the greater orbit.

Cooling gaps 15 are provided in the cylinder electrode 1, which can be made of a material that conducts heat well and is magnetically non-conductive like copper. They can have the meandering shape shown and can be connected to a coolant circuit via a ring distributor 16 and a ring collector 17 with coolant inlet 1b and coolant outlet 19. In the simplest pail, water can be used as a coolant. The cylinder electrode 1 is screwed to a shoulder 2, which can be made of brass, with screw screws 20. The cylinder electrode 1 is electrically insulated from the extension 2 and by an insulating body 21 with the shape of a pot rim. Old insulating material can be ceramic or a material based on mica, as well as temperature-resistant plastics such as polytetrafluoroethylene. After loosening the screws 20, the cylinder electrode can easily be replaced at any time. An annular gap 22 completes the electrical insulation against the extension piece 2. Working gas penetrating into the annular gap 22 is strongly cooled and forms a relatively good insulator. The insulating material 21 is arranged so as to be optically concealed from heat radiation from the arc and the heated gas. This is important because electrical insulating material is generally also a poor conductor of heat and therefore cannot be cooled sufficiently when it is directly exposed to the arc radiation. In the extension 2, the KUhlkanäle with 2? designated. Pipes 24 and 25 are used to connect to a coolant circuit.

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A hollow cylinder closes at the approach 2 with the Konuaeehulter 26, for example again made of brass on, the one with the approach can be soldered. The hollow cylinder 2 $ bounded by the central electrode 3 and the cylinder wall 26 ″ in the gas distributor annulus 9. A neck piece 12 let through an insulating ring 27 of the illustrated Form electrically insulated from the hollow cylinder 26, but also gas-tight connected to this. The connection can be made by screws 29 are »the insulating material protected by Hohrmanechetten ao.

The outer casing 30, which is arranged around the holder 11 of the central electrode 5, slides in the IialsstUck 12. It can also consist of a material such as brass and the live holder 11 can be electrically insulated by an insulating jacket 31. A coolant can be fed to the central electrode 3 in a double pipe system of the type shown. Purch a profile ring J2 teirpielBweiöe _t from Mesoing, is the real El ect well chilled ro the ring by high otröraunßegtechwincJigkelt in eineci schjnalen gap / ilektrodenrlnf uno part it for mi pe connection can be made from a fut wfirmele it material such as copper. l) The coolant can be fed to the l'interunf 11 through the inner pipe 33 to whom the i'amne lkar.il 44 is diverted into the head piece 45. The head piece 4 ^c j wiin at the same time the potential of ^:! prir.nunirEque-ile 46 created for the arc 7. By means of a

tPl! screw 47, whose Kiamiaerbmcken'48 enclose the bracket 11, The central electrode 2 can be adjusted in the axial direction. Through this the conical gap can be seen on the shoulder ankles 2 and 4 widened or reduced. ■

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You can use the pipes 10 for the gas supply in the distribution chamber merge tangentially in such a way that the twist of the working passage Arc rotation supported. Since the cone gap ends directly at the arc, the blazing speeds are so high achieve that you can do without a magnetic field for the arc rotation. That can be a significant advantage in cases mean in which one must save weight or energy sources3. On the other hand, in the case of strong magnetic fields, one can insert it of the supply pipes 10, in a direction opposite to the arc rotation, the amount of gas passed through the arc zone raise. This has the advantage that higher gas temperatures can be achieved.

The annular excitation winding 14 is powered by a generator · 4 9 excited. 3ie produces a substantially in the arc chamber 5 axial magnetic field. Εε is understandable that if necessary, if stronger magnetic fields are required, or are to act on a wider area on the arc, two Hinpwick lungeη can be arranged in the arc chamber 0 fin Juspfeld produce.

S claims
1 figure

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Claims (1)

6.6.1968 L \ z%: u \ P 15 14 '440.3 Ttooor .Zciciiüii PM 65/119? 151444Θ llcue claims 1.? Lcor; albronnor bu »show-by Craaca'-in a Mchtl) OG" cnkar:? R.ier _t in the a Xichfbogon awioclica Elolcirodcti imlüuft, which one l :: anlGclien Rinrjopalt as a terminal in dor ■ GascuftUirun ^ aua 'liciiibo ^; cn biläon, thereby ^ olconnzeiciinct that dar konicchG Ilin; - spait in ßoißor Vieito by a. Stelltricb vcrJ.Uirlerbciir lot and the; before the Könuorinj ::? alt Zufüliruiison for Arboito ^ ao in Ilichtun. :: ; cloi * liphtboßenrotatlon tancontinl ailndon. ?. · Pla; - ::;: r / orcrinor according to claim 1 »thereby colzv nii2elchno ^» da'i in ciat: Sj-lin.adi * olektrodc lait kpnitschoia Ar.eata a · cr.ial vc.:.- tcll ~ cIe ninr; epa "t int. 3. ria .-:.;: R ^ ircnnor according to claim 1, thereby oil "x ^^ 5 ^ ichiiot, (! Λ,"-; the i: o.üoaho-Kinsnpalt swioeacn dca julc'itrodcnriacütaon in einon or- M 'ν .. ·! Part, in v / caontliohoa sjlinclriöclicn ilin ^ roun r.it taiijonti r.kindan..lcn Suxüliruajsrohron jTllr .Arcoitnjaö ül »cr ^^ ht · 4,:>1; -. 'VVi'lroiincr after Annpniaa 1, £ C]: cnn :: Gici; ii' ..: t by cinon V.'inl-: cil v.:-r. CO ⁰ :: v; i £ ichori KQau :: v; r.nd vaiC. eier Z; /liE.ucrac ': i3O l ^: l: tf;:. ir. * tjroniior after άοη Annpräciicn 1 unil 2 and cino.:i eier vo i!.: .- \.; :: Ii ': r! cloa Anapr'icho, thereby r ^ - :: y: v: .z-; l.al: iae-i, :::: .. ";u;: r Jiicl 909834/0520 _BATH AO Blank page