FR2839606A1 - Plasma torch started by rupture of contact between nozzle and electrode, uses nozzle holder enclosing electrode holder and has spring tending to bring them together while gas pressure forces them apart, generating a spark - Google Patents

Abstract

The plasma torch has an electrode holder (1) that can move axially in the body (20) of the torch. An electrode (5) is fixed in the electrode holder. A nozzle holder (7) forms an sleeve round the electrode holder and carries a nozzle (6) with an axial gas orifice (21). A spring (4) tends to bring the electrode and nozzle carriers together, while gas pressure tends to push them apart.

Description

The present invention relates to a welding or cutting torch

  by contact break toyere / electrode. In conventional plasma cutting torches, the ignition of the pilot arc is often initiated by a high frequency or high voltage spark between the electrode.

and the nozzle.

  Furthermore, there is another ignition technique based on a short circuit between the electrode and the torch nozzle, which is connected to a voltage source, so as to create a spark as soon as the two pieces move apart. one from the other,

  that is to say when the electrical contact between them is broken.

  Wind short-circuit ignition torches described for example by

  documents US-A-3242305, FR-A-2669847 and EP-A-591018.

  In general, the electrode holder is mobile and actuated by the cooling pressure of the torch which acts on one end of this piece by means of a

piston surface.

  Depending on the case, the displacement of the electrode holder is done either by the pressure of a coolant, such as water, or by a pressure of com pressant air making

  2 0 plasma gas and cooling gas office.

  In the case of document US-A-3242305, it is easy to understand that having to use a cooling fluid (water) of a different nature from that of the fluid (gas) used to generate the plasma jet complicates the architecture of the torch and can pose safety problems due to the presence of water and electric current in the

2 5 torch.

  Furthermore, the document FR-A-2669847 endeavors to propose a particular mechanical assembly of the torch body making it possible to ensure a constant distance between the electrode and the tail nozzle regardless of the wear of this mechanism. The constitution of this torch is therefore complex and is based on the compulsory presence of an annular insulating diffuser and an external sleeve which make it possible to maintain the nozzle and the diffuser on the torch body, while the distribution of gases is characterized by the insulating diffuser which separates the plasma gas and the cooling gas. Finally, in the case of document EP-A-591018, the ignition cycle is complex because, at rest, the electrode is not in contact with the nozzle. Indeed, it is the rise in

  pressure which brings the two pieces together and which separates them from each other en-quite.

  The purpose of the present invention is then to provide a torch with ignition by

  contact break simpler and more reliable than existing versions.

  The solution of the invention is then a plasma torch comprising a torch body of axis AA comprising: - an oblong-shaped electrode holder having a front end and a rear end, and carry an annular collar having at least one surface front and at least one rear surface, said electrode holder being axially movable in said torch body, - an electrode fixed at the front end of the electrode holder, a nozzle holder forming a sleeve axially around the electrode holder, said holder nozzle is fixed at its upstream end to the torch body and carry at its downstream end a nozzle provided with an axial gas outlet orifice, led to the nozzle holder being space at said electrode holder so as to form a nozzle chamber, - an elastic means coming from exerts a mechanical pressure force on the rear surface of the annular collar in a direction tending to bring the electrode holder and the electrode of the nozzle, - a pressure chamber in communication fluid with the front surface of the annular collar so that a pressurized gas introduced into said pressure chamber comes to exert a pneumatic pressure force on said front surface of the annular collar in the direction tending to move away the electrode holder and ['nozzle electrode, characterized in that - the electrode holder comprises at least one internal recess extending axially from the front end to said electrode holder to a blind bottom, - a hollow dip tube is arranged axially in said Obviously internal, the front end of said dip tube opening opposite the electrode and the rear end of said dip tube opening in relation to the bottom of said bottom obviously - at least one persage, practical through the wall of the electrode holder, 3 0 fluid communication of the pressure chamber with the interior of the dip tube arranged in the internal cavity of the electrode holder so as to allow a cir gas flow from the pressure chamber towards the interior of the dip tube, and - the outer wall of said hollow dip tube and the inner wall of the electrode holder obviously are spaced from each other, at the level of the end before said electrode holder, thus delimiting an inter-wall space and at least one outlet orifice, p ratiq ue through the pa king of the electrode holder at the inter-wall ttespace, allows fluid communication to said inter-wall space with the nozzle chamber so as to allow the passage of the gas leaving through the front end of the = dip tube successively in the inter-wall space, in said outlet orifice and

in the nozzle chamber.

  Depending on the case, the torch of the invention may include one or more of the following technical characteristics: - gas supply means make it possible to supply the

gas pressure.

  - The elastic means is a spring arranged axially around the electrode holder. - The external wall of the nozzle chamber comprises at least one gas discharge orifice communicating with the external atmosphere, preferably

  several gas discharge ports.

  the external wall of the nozzle chamber comprises at least one gas evacuation orifice communicating fluidly with a cooling chamber forming a peripheral external skirt around the nozzle holder, said external skirt being

open to the ambient atmosphere.

  - the electrode holder is movable in the torch body, being guided by

  axially by at least one insulating part arranged in said torch body.

  the electrode holder carries an annular collar of which at least one front surface and at least one rear surface form the piston so as to allow displacement

  axial to said electrode holder in the torch body.

  - the pressure chamber is annular.

  - the front end of the dip tube is tightly fixed to the wall of

the obviously internal.

  - the electrode holder, the electrode, the nozzle and the nozzle holder are made, at least in part, of at least one electrically conductive material so as to form an electrical circuit designed to carry electric current when [ the electrode is in contact with the nozzle and, conversely, to create at least one electrical spark in the nozzle chamber when there is a break in contact between the electrode and the nozzle by axial separation from the electrode holder under the effect of gas pressure

  exerted on the front surface of the annular collar.

  - the compression chamber containing the elastic means communicates with

  ['ambient atmosphere through at least one opening to iiatmosphere.

  - the annular collar compotes sealing means to ensure a

  fluid tightness between the compression chamber and the pressure chamber.

  - the electrode holder and the wind electrode with negative potential, and the nozzle and the

  wind nozzle holder with positive potential.

  the practical wind outlet orifices tangentially 3 through the cylindrical wall of the electrode holder so as to ensure a vortex entry of the gas

in the nozzle chamber.

  - helical grooves made in the insulating part and / or in the electrode holder, in the same direction as the practical outlet orifices tangentially to

  through the cylindrical wall of the electrode holder.

  The invention also relates to a use of a torch according to the invention in a plasma arc cutting or welding operation, preferably the torch is a torch

  manual provided with a handle for manipulation by an operator.

  The invention will be better understood thanks to the detailed description below.

  given with reference to the appended figures in which: - Figure 1 shows a longitudinal section view of the body of a torch according to the invention, shown schematically in nozzle / electrode contact position (torch at rest), - and Figure 2 represents a view of the torch of FIG. 1, shown schematically in

  position of contact between the pipe and the electrode (torch in arc-lit situation).

  Figures 1 and 2 show only the body parts 20 of torch essential for understanding the invention. However, it goes without saying that this body 20 will itself be integrated into a suitable insulating handle, in particular which can be manipulated by

  an operator, which can take different forms.

  The plasma torch of the invention comprises a body 20 of axis AA comprising an electrode holder 1 of oblong shape, generally cylindrical but which may have several different diameters, provided with an end before which is fixed a electrode 5, for example by screwing, and with a rear end lb connected to a

  electric current source with negative potential (-).

  The electrode holder 1 carries, approximately 3 ml-distance between its ends before the and back 1b, an annular collar 9, projecting radially, having a front surface 9a and a rear surface 9b, and possibly surfaces or recesses

2 5 intermediaries.

  The electrode 5 carries an emissive insert 28 for example made of tungsten, hafnium

or zirconium.

  Furthermore, a nozzle holder 7 forming a sleeve axially around the electrode holder 1 is fixed by its upstream end 7b to the torch body 20 and carries at its downstream end 7a a nozzle 6 provided with an axial orifice 21 for the gas outlet from way to

  expel the arc plasma jet, form of ionized gas and electric arc.

  The nozzle holder 7 is the space of the electrode holder so as to form between them a toy chamber 12 into which the gas will be introduced, preferably of

  swirling (vortex) before being expelled through the orifice of the nozzle 6.

  As shown in FIG. 1, the mobile electrode holder 1 in the body of

  torch 20 is guided axially inside the two insulating parts 2 and 3.

  More precisely, the annular collar 9 acts as a piston by being subjected, via its lower part or front surface 9a, to the pressure of the gas so as to move the nozzle away from the electrode (see FIG. 2) and, conversely , being pushed back, as shown in FIG. 1, by a spring 4 which exerts a pressing force on the upper part or rear surface 9b of the annular collar 9. The pressure of the spring 4 then makes it possible to put

  in mechanical contact with the electrode 5 and the pipe 6.

  The nozzle holder 7 receives the insulating parts 2.3 in its upper part and the nozzle in its lower part. Electrically, the electrode holder 1 and the nozzle holder 7 are connected to a DC voltage source. A rovanne * (not shown) supplies

  ie nozzle holder 7 in plasma gas and cooling gas.

  To start an electric arc, it is the pressure of the gas which will exert a force under the piston 9 and, when this force is greater than that of the spring 4, the door

  O electrode 1 moves axially away from the nozzle 6.

  When the gas is sent into the torch, it arrives in a circular chamber 8, 3 at the lower end of which, a series of radish persages makes it possible to supply the

lower part 9a of the piston 9.

  The pressure chamber 8 is therefore in fluid communication with the front surface 9a of the annular collar 9 so that the pressurized gas introduced into the pressure chamber 8 comes to exert a pneumatic pressure force on said surface.

  before 9a of the collar 9 in the direction tending to move the electrode holder 1 away from the nozzle 6.

  The contact between the electrode 5 and the nozzle 6 is then broken and this rupture of

  contact generates an ignition spark in the pilot arc.

  The electrode holder 1 has an internal recess 22 extending axially from the end before the said electrode holder to a blind bottom 23 forming

  an internal cavity of the electrode holder.

  An oblong hollow dip tube 11, of cylindrical shape, is arranged axially in the obviously internal 22. The front end 11a of this dip tube 11 opens out opposite the electrode 5, while its rear end 11b opens out opposite the

bottom 23 of the obviously 22.

  One or more practical radial holes 10 in the electrode holder 1 ensure the introduction of the gas into the cavity located at the bottom of the recess 22, then inside the hollow dip tube 11. This gas flow cools the bottom

  30 of the electrode 5 and the insert 28.

  To ensure correct circulation of the gas from the drills, ages 10 to the inside of the dip tube 11, it is imperative that said dip tube is fixed in a sealed manner in obviously 22 so that the gas entering the bottom of the of course 22 cannot flow between the internal wall of the housing 22 and the external wall of the upstream part 11b of the dip tube 11, that is to say the part of the tube

  11 fixed to the internal wall of the recess 22.

  The gas flow then leaves through the downstream end 11a of the dip tube 11, circulates in the space between the outer wall of said hollow dip tube 11, at its downstream end 11a, and the inner wall of the recess 22 of the electrode holder 1, and then passes through a series of tangent pergages 15 to the electrode holder

  to unclog in the upstream part of the nozzle chamber 12.

  When this flow leads into the nozzle chamber 12, it is therefore projected in

form of vortices.

  Two orifices 13 gauges for evacuating gas are brought into this nozzle chamber 12 so as to expel the gas towards the ambient atmosphere, that is to say outside the body 20 of the torch, said orifices 13 opening into a bell chamber or cooling chamber delimited by a peripheral skirt 25 arranged around the nozzle holder 7 to ensure the cooling of the nozzle holder 7 and of the nozzle 6 by

  gaseous scanning of their external surface.

  At rest, the orifice 21 of the nozzle is closed by the electrode 5 positioned on this

port 21.

  However, at the moment when the force of the spring 4 becomes less than that of the pressure exerted on the surface 9a of the piston 9, the electrode holder 1 goes back up, the electrode 5 moves away from the toyere 6, the spark of rupture Jets out, hole 21 is released and the pilot arc

  can be established in the channel of the nozzle 6.

  To improve the dynamics of the gas vortex forming in the nozzle chamber 12, helical grooves 14 can be produced in the insulating part 2 or

  in the electrode holder 1, in the same direction as the pergages 15 of the electrode holder.

  To modulate the flow rates as a function of the cutting arc intensities, series of wind holes more or less released depending on the shape of the dip tube 2 (see figure 2

with a reduced flow).

  The particular design of the inventive torch considerably reduces the number of parts required, which leads to a simplification of its architecture and

  therefore an increase in its reliability.

Claims (16)

claims   l. Plasma torch comprising a body (20) of axis torch (AA) comprising: - an electrode holder (1) of oblong shape having a front end (la) and a rear end (lb), and carry an annular collar (9) having at least one front surface (9a) and at least one rear surface (9b), said electrode holder (1) being axially movable in said torch body (20), - an electrode (5) fixed to i 'front end (la) of the electrode holder (1), - a nozzle holder (7) forming a sleeve axially around the electrode holder (1), said nozzle holder (7) being fixed by its upstream end (7b) to the torch body (20) and carry at its downstream end (7a) a nozzle (6) provided with an axial orifice (21) for gas outlet, led to the nozzle holder (7) being space at said electrode holder ( 1) so as to form a nozzle chamber (12), - an elastic means (4) coming exerts a mechanical pressure force on the rear sufiace (9b) of the annular cotlet (9) in the direction tending to bring the electro door closer of (1) and the electrode (5) of the nozzle (6), - a pressure chamber (8) in fluid communication with the front surface (9a) of the annular collar (9) so that a gas under pressure introduced into said pressure chamber (8) comes to exert a pneumatic pressure force on said front surface (9a) of the annular collar (9) in the direction tending to move away the electrode holder (1) and [the electrode (5) from the nozzle (6), characterized in that - the electrode holder (1) comprises at least one internal recess (22) 25 extending axially from the front end (la) to said electrode holder (1) up to a blind bottom (23), - a hollow dip tube (11) is arranged axially in said internal recess (22), the front end (la) of said dip tube (11) opening facing the electrode (5) and the rear end (lib) to said dip tube (11) opening in looking at the bottom (23) to said recess (22), - at least one persage (10), practical through the wall of the elect carrier rode (1), allows fluid communication of the pressure chamber (8) with the interior of the dip tube (11) arranged in the internal recess (22) of the electrode holder (1) so as to allow circulation gas from the pressure chamber (8) towards the interior of the drain tube (11), and - the wall external to said hollow dip tube (11) and the internal wall of the recess (22) of the electrode holder (1 ) wind spaces from one another, at the front end (la) to said electrode holder, thereby delimiting a space (24) between walls and at least one outlet orifice (15), practical through the wall of the electrode holder (1) at the inter-wall space (24), allows fluid communication with said inter-wall space (24) with the nozzle chamber (12) so as to allow passage of gas leaving through the front end (11a) of the dip tube (11) successively in the inter-wall space (24), in the outlet orifice led (15) and in the t chamber uyere (12). 2. Torch according to claim 1, characterized in that means   gas supply supply the pressure chamber (8) with gas.   3. Torch according to one of claims 1 or 2, characterized in that the   elastic means (4) is a spring fitted axially around the electrode holder (1).   4. Torch according to one of claims 1 to 3, characterized in that the wall   external of the nozzle chamber (12) comprises at least one gas discharge orifice (13) communicating with the external atmosphere, preferably several orifices gas outlet.   5. Torch according to one of claims 1 to 4, characterized in that the wall   external of the nozzle chamber (12) comprises at least one gas evacuation orifice fluidly communicating with a cooling chamber (25) forming a peripheral external skirt around the nozzle holder (7), said external skirt (25) being open on the ambient atmosphere.   6. Torch according to one of claims 1 to 5, characterized in that the holder   ele * rode (1) is movable in the torch body (20) being guided axially by   at least one insulating part (2, 3) arranged in said torch body (20).   7. Torch according to one of claims 1 to 6, characterized in that the holder   electrode (1) carries an annular collar (9) - at least one front surface (9a) and at least one rear surface (9b) form a piston so as to allow displacement   axial to said electrode holder (1) in the torch body (20).   8. Torch according to one of claims 1 to 7, characterized in that the chamber pressure (8) is annular.   9. Torch according to one of claims 1 to 8, characterized in that the end   front (the) of the dip tube (1 1) is fixed in a sealed manner to the wall of the recess internal (22).   10. Torch according to one of claims 1 to 9, characterized in that the holder   ele * rode (1), the electrode (5), the nozzle (6) and the nozzle holder (7) are made, at least in part, of at least one electrically conductive material so as to form a electrical circuit designed to convey electrical current when the electrode (5) is in contact with the nozzle (6) and, conversely, to create at least one electrical spark in the nozzle chamber (12) when there is a break in the contact between the electrode (5) and the toy (6) by axial separation of the electrode holder (1) under the effect of the   gas pressure exerted on the front surface (9a) of the annular collar (g).   11. Torch according to one of claims 1 to 10, characterized in that the   compression chamber (26) containing the elastic means (4) communicates with the ambient atmosphere by means of at least one orifice (27) for setting the atmosphere.   12. Torch according to one of claims 1 3 11, characterized in that the collar   annular (9) compote sealing means permitting to ensure a sealing   fluid between the compression chamber (26) and the pressure chamber (8).   13. Torch according to one of claims 13 12, characterized in that the holder   electrode (1) and the electrode (5) wind at negative potential, and the nozzle (6) and the holder   nozzle (7) wind at positive potential.   14. Torch according to one of claims 1 3 13, characterized in that the   practical outlet openings (15) tangentially through the cylindrical wall of the electrode holder (1) so as to ensure a vortex entry of the gas into the nozzle chamber (12).   15. Torch according to one of claims 3 14, characterized in that   helical grooves (14) wind machined in the insulating part (Z) andfou in the electrode holder (), in the same direction as the practical outlet orifices (15)   tangentially through the cylindrical wall of the rod holder (1).   16. Use of a torch according to one of claims 1 to 15 in a   plasma arc cutting or welding operation, preferably the torch is a torch