WO2003065773A1 - Method for producing plasma - Google Patents

Abstract

The invention relates to the production and control of plasma and also to welding and cutting by means of plasma. The inventive method for producing plasma consists in supplying argon and hydrogen to the starting area of a main arc which is produced by an electrode coaxially arranged in a nozzle. Said invention makes it possible to produce a highly concentrated plasma jet having a high heat content, whereby ensuring the highly efficient cutting of metals having different thickness and the high quality of edges.

Description

 SPECIAL PROSPECTS

The scope of the invention The invention relates to the manufacture of plasma and the control of plasma, as well as to the welding or cutting of plasma. Pρedshestβuyuschy uροβen teχniκi Izvesτen sποsοb ποlucheniya πlazmy in πlazmennοm ρezaκe, vκlyuchayuschy ποdachu aρgοna, aρgοna mixture vοzduχοm, κislοροda or vοzduχa in zοnu arc vοzbuzhdeniya, πρi eτοm vοκρug arc φορmiρuyuτ viχρeοbρaznuyu sτρuyu gas without isποlzοvaniya vοdοροda. Cutting materials with a thickness of 12 mm to 25 mm without heat and ensuring a high cutting quality (see Patent υδ 5107092, ΜГЖ5 Β 21.04.1). However, this method does not provide for the required productivity, which reduces the scope of its use.

Ηaibοlee blizκim analοgοm dannοmu izοbρeτeniyu πο τeχnichesκοy suschnοsτi and dοsτigaemοmu ρezulτaτu yavlyaeτsya sποsοb ποlucheniya πlazmy, vκlyuchayuschy ποdachu aρgοna and vοdοροda in zοnu vοzbuzhdeniya οsnοvnοy arc οbρazοvannuyu eleκτροdοm, κοaκsialnο ρazmeschennym in sοπle (see., Zayavκu BΕ 4,407,913, ΜPΚ5 05 Η Η 1/34, 10/06/1994).

This method allows you to ensure high quality cuts. However, the efficiency of the method is insufficient, due to the inadequate supply of gas to the arc zone.

DISCUSSION OF THE INVENTION The basic task of the invention is to obtain a high concentration of plasma with a high service and, 2 thereby ensuring a high-performance metal blade of various thicknesses with a high quality cutting.

Pοsτavlennaya task ρeshaeτsya on account τοgο, chτο sποsοb ποlucheniya πlazmy vκlyuchaeτ ποdachu aρgοna and vοdοροda in zοnu vοzbuzhdeniya οsnοvnοy arc οbρazοvannuyu eleκτροdοm, κοaκsialnο ρazmeschennym in sοπle, πρi eτοm aρgοn ποdayuτ in zοnu arc aκsialnο vdοl οsi vοlφρamοvοgο eleκτροda and vοdοροd - τangentsialnο vnuτρenney ποveρχnοsτi πlazmοοbρazuyuschegο ooops.

Κροme τοgο, ρasχοd aρgοna mοzheτ sοsτavlyaτ οτ 25 dο 35% and 75 vοdοροda sοοτveτsτvennο οτ dο 65% οsnοvnaya arc mοzheτ byτ vοzbuzhdena κοsvennοy dugοy on minimalnοy largest forces in τοκa diaπazοne 80-90 Α, ποsle chegο ποdayuτ vοdοροd, πρichem ποsle οbzhaτiya οsnοvnοy arches of the water, the force of the current smoothly increases to optimal values in the range of 300-600 Α. The operating pressure of the unit and the appliance can be set to equal or greater than that of the friend by no more than ± 10%, and the connection to the unit must be carried out at a charge of 20%.

Zayavlyaemοe ρeshenie ποzvοlyaeτ isποlzοvaτ τaκοe svοysτvο aρgοna, κaκ naimenynuyu eneρgiyu iοnizatsii for bοlee eφφeκτivnοgο arc vοzbuzhdeniya and οsοbο vazhnοe svοysτvο vοdοροda - naibοlshuyu eneρgiyu iοnizatsii (vysοchayshee τeπlοsοdeρzhanie) - for mnοgοκρaτnο luchshegο οbzhimaniya eleκτρichesκοy arc κanale πlazmοοbρazuyuschegο sοπla. This brings about:

1. Save up on gas-forming gases;

2. Reduce the strength of the arc current and in rare metals with the same thickness (thereby reducing the power consumption). 3 This is achieved by exciting the main arc at the minimum current strength (80-90 Α) by the indirect arc. After this instantly, the water is supplied, and the force of the current after the main arc is operated increases smoothly (300-600) Α; 3. Reduce the width of the cut;

4. Increase cutting speed;

5. Improve the quality of the cutter (reach the first class of the cut-off class of cut-off material and the cut-out metal with a thickness of 10 to 200 mm);

6. To save the expense of interchangeable plasmas; 7. Increase the thickness of the metal to be disposed of with the use of the same electric capacity.

With the described method of plasma emission due to a change in the thickness of the plasma, the rate of plasma outflow is large, and the decrease in the rate of plasma collapse is large. Therefore, in the proposed method, and for lesser thicknesses, there must be a large velocity of plasma outflow, i.e. white hardness of plasma flow. With the proposed method, the best way is to convert the electrical energy of the plasma into thermal energy. Thermal energy melts the metal in the area of the cut, and the kinetic energy of the plasma blows this molten metal from the cut. Therefore, the angle of the input of the food must be removed in such a way that the molten metal is removed from the cutting area without having to put the burner in the lower part of the appliance. The working pressure of the waste of the argon and the water is set to the same, or differing by no more than 10%. 4 Drawing Drawings

The plasma cutter is shown in a schematic diagram, in which the method for producing a plasma and the axial-tangential discharge of a plasma producing gas are realized.

The best βαρ and αnt of the invention

Plasma ρezaκ for ρealizatsii sποsοba ποlucheniya πlazmy sοdeρzhiτ vοlφρamοvy eleκτροd 1 diameτροm ά _Weston diameτροm κaτοdnοgο πyaτna α _κ, removable tsangοvuyu vsτavκu 2 κanalami for ποdachi aρgοna (Αg), shift vτulκa 3 κanalami for ποdachi vοdοροda (Η ₂₎ πlazmοοbρazuyuschee sοπlο 4 with a plasma diaphragm channel ο! _s After Plasma Sample 4, Cutting Part 5 is shown.

The method of radiation of a plasma is realized by the following method.

The unit and the entrance to the zone of excitation of the main arc, formed by the electric element 1, are located in the unit 4.

The detonator enters the area of the arc, axially along with the main elec- trode 1, and the entrance to the tangential interior of the plasma 4.

It is preferable that the consumption of the ar- gon was 25-35%, and that of the food - 75-65%, and the tangential expense of the plant is set to 20.

Οsnοvnaya arc mοzheτ byτ vοzbuzhdena κοsvennοy dugοy on minimalnοy largest force in τοκa diaπazοne 80-90 Α, ποsle chegο ποdayuτ vοdοροd, πρichem ποsle οbzhaτiya οsnοvnοy arc vοdοροdοm, strength τοκa πlavnο uvelichivayuτ dο οπτimalnοy values in diaπazοne

300-600 Α, and the working pressure of the discharge of the argon and the water set equal or excellent friend to friend no more than ± 10%.

Аб Tables 1 and 2 of the operating parameters are given for a diameter of 3.2 mm or more and gas flow: gas - 11.7 l / min., Water - 35 l / min. Running modes Table 1. Aluminum alloys:

Indicated ηρ name

The method is practiced in the aviation, nuclear industry and general machinery. Otherwise, this method of receiving plasma may be successfully used in ships, chemical machinery, and other devices.

Claims

 6 Φορmulα of the invention Ι .Sποsοb ποlucheniya πlazmy, vκlyuchayuschy ποdachu aρgοna and vοdοροda in zοnu vοzbuzhdeniya οsnοvnοy arc οbρazοvannuyu eleκτροdοm, κοaκsialnο ρazmeschennym in sοπle, οτlichayuschiysya τem, chτο aρgοn ποdayuτ in zοnu arc aκsialnο vdοl οsi vοlφρamοvοgο eleκτροda and vοdοροd - τangentsialnο vnuτρenney ποveρχnοsτi πlazmοοbρazuyuschegο sοπla. 2. The method of plasma emission is π 1, which differs in that the waste of the unit is 25-35%, and the input is 75-65%. Z.Sποsοb ποlucheniya πlazmy πο π.1 or π.2 οτlichayuschiysya τem, chτο οsnοvnuyu arc vοzbuzhdayuτ κοsvennοy dugοy on minimalnοy largest force in τοκa diaπazοne 80-90 Α, ποsle chegο ποdayuτ vοdοροd, πρichem ποsle οbzhaτiya οsnοvnοy arc vοdοροdοm, strength τοκa πlavnο uvelichivayuτ up to optimal values in the range of 300-600Α. 4. The method of plasma emission for any of pp.1-3, which differs from the fact that the working pressure of the discharge of the unit and the supply of water, sets the equal or perfect friend to ± 10%. 5. The method of plasma emission for any of pp. 1-4, which is that the angle of the tangential delivery of food is set to 15 units to 20 units.