EP2375875A1 - Diffuseur pour torches a découpage plasma - Google Patents

Diffuseur pour torches a découpage plasma Download PDF

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Publication number
EP2375875A1
EP2375875A1 EP11161871A EP11161871A EP2375875A1 EP 2375875 A1 EP2375875 A1 EP 2375875A1 EP 11161871 A EP11161871 A EP 11161871A EP 11161871 A EP11161871 A EP 11161871A EP 2375875 A1 EP2375875 A1 EP 2375875A1
Authority
EP
European Patent Office
Prior art keywords
axis
diffuser
equal
channel
angle
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP11161871A
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German (de)
English (en)
Other versions
EP2375875B1 (fr
Inventor
Silvano Dallavalle
Mauro Vancini
Vittorio Colombo
Emanuele Ghedini
Alessia Concetti
Riccardo Fazzioli
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Cebora SpA
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Cebora SpA
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Publication date
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Publication of EP2375875A1 publication Critical patent/EP2375875A1/fr
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05HPLASMA TECHNIQUE; PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OF NEUTRONS; PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS
    • H05H1/00Generating plasma; Handling plasma
    • H05H1/24Generating plasma
    • H05H1/26Plasma torches
    • H05H1/32Plasma torches using an arc
    • H05H1/34Details, e.g. electrodes, nozzles
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05HPLASMA TECHNIQUE; PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OF NEUTRONS; PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS
    • H05H1/00Generating plasma; Handling plasma
    • H05H1/24Generating plasma
    • H05H1/26Plasma torches
    • H05H1/32Plasma torches using an arc
    • H05H1/34Details, e.g. electrodes, nozzles
    • H05H1/3468Vortex generators
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05HPLASMA TECHNIQUE; PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OF NEUTRONS; PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMIC BEAMS
    • H05H1/00Generating plasma; Handling plasma
    • H05H1/24Generating plasma
    • H05H1/26Plasma torches
    • H05H1/32Plasma torches using an arc
    • H05H1/34Details, e.g. electrodes, nozzles
    • H05H1/3478Geometrical details

Definitions

  • This invention relates to a diffuser for plasma cutting torches, and specifically to a diffuser for transferred arc plasma cutting torches.
  • the plasma cutting torches referred to extend longitudinally around a central axis and comprise, schematically:
  • the nozzle, the electrode and the diffuser delimit a plasma generation chamber into which the gas is fed through the diffuser.
  • the gas fed into the chamber comes from a respective gas feed system.
  • Prior art torches also comprise a main body or torch body; a nozzle holder designed to support the nozzle and mounted on one end of the torch body and also surrounding the electrode which is mounted centrally on the torch body.
  • the nozzle, the electrode and the diffuser, and therefore the chamber are supplied by respective electric and pneumatic circuits to initiate and sustain, when suitably controlled, the electric arc and the plasma column.
  • the pneumatic supply circuit comprises a diffuser positioned between the electrode and the nozzle through which the gas for generating the plasma accesses the chamber.
  • the diffuser has a plurality of holes for letting gas into the chamber and said holes ensure that the gas enters the chamber with a predetermined velocity vector.
  • the electrode comprising the above-mentioned insert, is connected by a wire to the negative pole (cathode) of a current generator.
  • the nozzle is electrically isolated from the electrode and is connected, during the known pilot arc step, by a wire, to the positive pole (anode) of the current generator.
  • a tubular electric isolating element is interposed between the respective electric power supply circuits of the electrode and the nozzle.
  • the electrode, the nozzle and the diffuser are the wear components of the torch, hereinafter also referred to simply as “wear parts”, and must be regularly substituted to guarantee correct operation of the torch.
  • the electrode, the nozzle and the diffuser once assembled in the torch, form the plasma generation chamber.
  • a widespread problem in the use of such torches is the life of the wear parts, in particular the cathode, and maintaining a high cutting quality, where the expression cutting quality refers to correct creation of the cut profile (clean cut), with the absence of burrs on the worked zones, which greatly depends on the state of wear of the electrode and the nozzle.
  • diffusers for prior art cutting torches do not allow a combination of good arc constriction, needed for good quality cut parts, with minimal wear on the wear parts (electrode and nozzle).
  • Patent document US5734143 describes a microwave plasma torch for deposition.
  • Said torch has a diffuser forming ducts for the passage of a gas which face a reaction chamber in which the vacuum is created and in which the surface to be treated is positioned.
  • US5734143 The configuration of the ducts for passage of the gas belonging to the diffuser in US5734143 depends on the direction of generation of the microwaves and is designed to prevent the impurities generated by the arc from mixing with the plasma, for improving the purity of the layer deposited. Therefore, US5734143 does not provide any lesson on how to increase the life of the wear parts in a cutting torch.
  • Patent document US2007/0284340 describes a plasma torch for treating surfaces or objects which has a diffuser with ducts for imparting a vortex trajectory to a gas.
  • US2007/0284340 proposes a diffuser designed in such a way as to directly support the electrode, and does not provide any lesson on how to increase the life of the wear parts in a cutting torch.
  • the main technical purpose of this invention is to provide a diffuser for plasma cutting torches which allows the combination of good arc constriction, needed for good quality cut parts, with minimal wear of the wear parts.
  • One aim of this invention is to provide a diffuser which allows maximisation, in practice, of the rotational velocity of the gas at the mouth of the nozzle orifice.
  • Another aim is to provide a diffuser which minimises, in practice, the rotational velocity of the gas close to the cathode emission surface.
  • the diffuser according to the invention is a diffuser for a plasma cutting torch which comprises a substantially annular main body with a main axis, an annular lower wall, an annular upper wall and a cylindrical outer lateral wall and at least one channel for the passage of gas.
  • the channel has an inlet and an outlet which is positioned at the annular lower wall.
  • the channel has a diameter "d1" and an axis of extension which is slanting relative to the main axis.
  • the axis of the channel intersects the annular lower wall at a point "O" at the outlet.
  • a projection of the axis of the channel in a plane “ar” forms, with an axis "a”, an angle " ⁇ ” and a projection of the axis of the channel in a plane “at” forms, with the axis "a”, an angle " ⁇ ”. Therefore, a Cartesian reference system is defined, having its centre at "O", an axis "a” parallel with the main axis, an axis "r” in a radial direction and an axis "t” perpendicular to the axes "a” and "r".
  • the angle " ⁇ " is sized to impart to the velocity versor of the gas an axial component “Vass” and a tangential component “Vtan” whose ratio is within the range [0.27 - 0.70].
  • the diffuser is designed in such a way (in particular the at least one channel of the diffuser has an end portion designed in such a way) that (the angle " ⁇ " is sized in such a way that) the velocity versor of the gas exiting the channel has an axial component (along the axis "a”) “Vass” and a tangential component (along the axis "t”) “Vtan” whose ratio is within the range [0.27 - 0.70].
  • the diffuser is designed in such a way (in particular the at least one channel of the diffuser has an end portion designed in such a way) that the angle " ⁇ " is within the range [55 degrees - 75 degrees].
  • the diffuser is preferably designed in such a way (in particular the at least one channel of the diffuser has an end portion designed in such a way) that (the angle " ⁇ " is sized in such a way that) the velocity versor of the gas exiting the channel has a radial component (along the axis "r") "Vrad" which is within the range [0 - 0.34].
  • the diffuser is designed in such a way (in particular the at least one channel of the diffuser has an end portion designed in such a way) that the angle " ⁇ " is within the range [0 degrees - 20 degrees].
  • This invention also provides a plasma cutting torch comprising a diffuser designed as described above (and as described in detail below).
  • said torch is a plasma cutting torch extending around a main axis and comprises:
  • said torch is a transferred arc torch.
  • said torch is a torch powered with direct current.
  • the feed system is a system for feeding gas containing oxygen, allowing the torch to cut soft iron.
  • the consumable electrode is made of hafnium, or another material suitable for use in a plasma cutting torch in which the gas contains oxygen.
  • the configuration of the diffuser advantageously allows an increase in the ratio of the values adopted by the gas swirl velocity (in the plasma chamber) at the mouth of the orifice and close to the emitter electrode.
  • the swirl velocity of the gas in the plasma chamber is at its maximum at the mouth of the orifice and at its minimum close to the emitter electrode (that is to say, close to the electrode emission surface). This allows an increase in the lifetime of the wear parts and in particular of the electrode.
  • the research and experimentation by the Applicant has shown that, in a transferred arc cutting torch having a plasma chamber forming at least one annular portion and one end portion in communication with an orifice of a nozzle for issuing plasma, the lifetime of the wear parts (and in particular of the emitter electrode) is correlated with the ratio between the swirl velocity adopted by the gas in the plasma chamber at the mouth of the orifice and close to the electrode emission surface.
  • the torch 100 extending around a main axis X, basically comprises the electrode 1, the nozzle 2 and the diffuser 200 which delimit a plasma generation chamber 3, a gas feed system 4 for feeding the gas into the plasma generation chamber 3, a circuit for supplying electricity to the electrode, which allows its connection to the negative pole (cathode) of a current generator, and a circuit for supplying electricity to the nozzle for connecting it to the positive pole (anode) of the generator.
  • the torch 100 is a plasma cutting torch.
  • the torch 100 is a transferred arc plasma (cutting) torch.
  • the torch 100 comprises a supporting body 101 for the electrode 1.
  • the electrode 1 and the nozzle 2 are mounted in such a way that they are coaxial with the axis X.
  • axis X hereinafter also refers to the main axis of the separate components of the torch.
  • the torch 100 comprises a nozzle holder 103 for mounting the nozzle on the diffuser 200.
  • the diffuser 200 interposed between the electrode 1 and the nozzle 2 there is the diffuser 200, described in more detail below, for feeding the gas into the chamber 3.
  • the gas is ionised, for example by means of a high voltage applied across the electrode and the nozzle or with other known techniques, in such a way that an electric arc can be initiated.
  • the electrode 1 comprises a supporting element 5 for a tablet 6 of emitter material or an emitter.
  • the element 5 comprises an upper portion 7, with reference to Figure 1 , which is substantially cylindrical, extending around the main axis X.
  • the portion 7 comprises a substantially cylindrical outer surface 8.
  • a tooth 9 projects from the surface 8 around the entire circumference of the element 5 and is provided for coupling with the diffuser 200, as is described in more detail below.
  • the nozzle comprises a substantially tubular first portion 10 intended for mounting the nozzle 2 on the body 101 of the torch.
  • the nozzle 2 is coupled to the diffuser 200.
  • the nozzle 2 comprises a second, tip portion 11 in which there is a hole or orifice 12 having a diameter "De" from which the plasma is issued.
  • the tip portion 11 has a tapered inner surface 11a which, with the nozzle 2 mounted on the torch 100, is facing the electrode 1 to at least partly form the plasma generation chamber 3.
  • the inside of the nozzle, between the surface 11a and the orifice 12, has a "funnel" shape which forms a second chamber or pre-chamber 13, since it is located upstream of the orifice 12 for the passage of the plasma gas, and for the passage of the plasma.
  • the pre-chamber 13 is coaxial with the orifice 12 and the electrode 1 once installed.
  • the pre-chamber 13 has a cylindrical infeed 14, with depth or height Ha and a tapered connecting stretch 15 between the infeed 14 and the orifice 12.
  • the infeed 14 of the pre-chamber 13 is coaxial with and facing the tablet 6 of emitter material.
  • Figures 2 to 4 show a preferred embodiment of the diffuser 200 according to this invention.
  • the diffuser 200 comprises a substantially annular main body 201.
  • Figure 4 shows how the diffuser main body 201 has an annular groove 202 made in an inner wall of the body 201 and intended to receive, once the diffuser 200 is mounted in the torch 100, the tooth 9 present on the outer surface 8 of the electrode 1.
  • the diffuser 200 is kept coupled to the electrode 1 in such a way that the tooth 9 is engaged in the groove 202.
  • the chamfer 203 extends on the outer surface of the diffuser body 201 and is formed, in practice, by an annular portion 203 having a diameter which is less than that of the diffuser body 201.
  • the diffuser 200 comprises an annular lower surface or wall 204, an annular upper surface or wall 205 and a cylindrical outer lateral surface or wall 206.
  • the diffuser 200 comprises a plurality of channels 207, four in the example illustrated, for putting into fluid communication the gas feed system 4 and the plasma generation chamber 3.
  • each channel 207 comprises a first radial hole 208 with diameter "d” and depth "P" extending from the outer lateral surface 206.
  • the example illustrated shows how the holes 208 are arranged in diametrically opposed pairs.
  • the diameters on which the two pairs of holes are positioned are at right angles to each other.
  • Figure 4 shows how the axes of the holes 208, only one of which is illustrated for greater clarity, are positioned at a height "h" relative to the lower surface 204.
  • the channels 207 each comprise a second hole 209 extending from the annular wall 204 to the corresponding hole 208.
  • Each hole 208 is in fluid communication with the corresponding hole 209 and overall they form the respective channel 207 for putting in fluid communication the gas feed system 4 and the plasma generation chamber 3.
  • the channels 207 extend from the outer lateral surface 206 and lead to the annular lower surface 204.
  • each channel 207 has an inlet 207a on the outer lateral wall 206 and an outlet 207b on the annular lower surface 204.
  • each hole 209 comprises an axis "A” and a diameter "d1".
  • each hole 209 is slanting relative to the main axis X of the diffuser.
  • the channels 207 are formed only by the hole 209 having the inlet 207a and the outlet 207b and the axis "A" slanting relative to the main axis X.
  • the outlet 207b is provided at the annular lower wall 204 in such a way that the gas passing through it reaches the chamber 3, whilst the inlet 207a is provided on the outer lateral wall 206.
  • the above-mentioned angle " ⁇ " is sized to impart to the velocity versor of the gas entering the chamber 3 through the channel 209a, an axial component “Vass” and a tangential component “Vtan” (according to the above-mentioned axis "t") so as to impart to the velocity of the entering gas a tangential component according to the axis t which is optimum for containment of the arc.
  • the ratio between the axial component "Vass” and the tangential component "Vtan”, due to the diffuser 200 and in particular to the holes 209 in the diffuser, is between 0.27 and 0.70, that is to say: 0.27 ⁇ Vass V tan ⁇ 0.70.
  • the ratio between the axial component "Vass” and the tangential component "Vtan”, due to the diffuser 200, is between 0.36 and 0.57, that is to say: 0.36 ⁇ Vass V tan ⁇ 0.57.
  • the ratio between the axial component "Vass” and the tangential component "Vtan”, due to the diffuser 200, is between 0.44 and 0.51, that is to say: 0.44 ⁇ Vass V tan ⁇ 0.51.
  • the angle " ⁇ " is preferably between 55 and 75 sexagesimal degrees, that is to say: 55 ⁇ ° ⁇ ⁇ ⁇ 75 ⁇ ° .
  • the angle " ⁇ " is between 60 and 70 sexagesimal degrees, that is to say: 60 ⁇ ° ⁇ ⁇ ⁇ 70 ⁇ ° .
  • the angle " ⁇ " is between 63 and 67 sexagesimal degrees, that is to say: 63 ⁇ ° ⁇ ⁇ ⁇ 67 ⁇ ° .
  • the measurement in millimetres of the diameter "d1" is preferably between 0.4 and 0.6, that is to say: 0.4 ⁇ d ⁇ 1 ⁇ 0.6.
  • the measurement in millimetres of the diameter "d1" is between 0.45 and 0.55, that is to say: 0.45 ⁇ d ⁇ 1 ⁇ 0.55.
  • the measurement in millimetres of the diameter "d1" is between 0.48 and 0.52, that is to say: 048 ⁇ d ⁇ 1 ⁇ 0.52.
  • said angle is preferably sized in such a way as to impart to the velocity versor a radial component "Vrad”, that is to say directed according to the axis "r" of the above-mentioned reference systems, which is between 0 and 0.34, that is to say: 0 ⁇ Vrad ⁇ 0.34.
  • the diffuser 200 has said angle " ⁇ " between 0 and 20 sexagesimal degrees.
  • the angle " ⁇ " is 11 sexagesimal degrees.
  • the angle " ⁇ " is 0 sexagesimal degrees, that is to say, zero.
  • A1 is the distance, measured according to the direction X, between the outlet section of the channels 207 and the inlet section of the orifice 12
  • B1 is the distance, measured according to the direction X, between the end section of the electrode 1 and the inlet section of the orifice 12.
  • the ratio between A1 and B1 is preferably between 3 and 4.5, that is to say: 3 ⁇ A ⁇ 1 B ⁇ 1 ⁇ 4.5.
  • Said sizing of the ratio between A1 and B1 is advantageously applied in torches 100 having operating currents which are several dozen Amperes above 100 Amperes, for example in 160 Ampere torches.
  • Said sizing of the ratio between A1 and B1 is advantageously applied in torches 100 having operating currents which are around a hundred Amperes, for example in 100 Ampere torches.
  • Said sizing of the ratio between A1 and B1 is advantageously applied in torches 100 having operating currents which are around several dozen Amperes, for example in 60 Ampere torches.
EP11161871.6A 2010-04-12 2011-04-11 Diffuseur pour torches a decoupage plasma Not-in-force EP2375875B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
ITBO2010A000223A IT1399441B1 (it) 2010-04-12 2010-04-12 Torcia per il taglio al plasma.

Publications (2)

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EP2375875A1 true EP2375875A1 (fr) 2011-10-12
EP2375875B1 EP2375875B1 (fr) 2016-07-27

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EP (1) EP2375875B1 (fr)
IT (1) IT1399441B1 (fr)
PL (1) PL2375875T3 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018229308A3 (fr) * 2017-06-12 2019-03-28 Kjellberg-Stiftung Électrodes pour torches à plasma refroidies par gaz et liquide, agencement d'une électrode et d'un tube de refroidissement, guidage des gaz, torche à plasma, procédé de guidage des gaz dans une torche à plasma et procédé pour faire fonctionner une torche à plasma

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5170033A (en) * 1990-04-24 1992-12-08 Hypertherm, Inc. Swirl ring and flow control process for a plasma arc torch
US5734143A (en) 1994-10-26 1998-03-31 Matsushita Electric Industrial Co., Ltd. Microwave plasma torch having discretely positioned gas injection holes and method for generating plasma
US20070284340A1 (en) 2006-06-09 2007-12-13 Morten Jorgensen Vortex generator for plasma treatment

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5170033A (en) * 1990-04-24 1992-12-08 Hypertherm, Inc. Swirl ring and flow control process for a plasma arc torch
US5734143A (en) 1994-10-26 1998-03-31 Matsushita Electric Industrial Co., Ltd. Microwave plasma torch having discretely positioned gas injection holes and method for generating plasma
US20070284340A1 (en) 2006-06-09 2007-12-13 Morten Jorgensen Vortex generator for plasma treatment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018229308A3 (fr) * 2017-06-12 2019-03-28 Kjellberg-Stiftung Électrodes pour torches à plasma refroidies par gaz et liquide, agencement d'une électrode et d'un tube de refroidissement, guidage des gaz, torche à plasma, procédé de guidage des gaz dans une torche à plasma et procédé pour faire fonctionner une torche à plasma

Also Published As

Publication number Publication date
IT1399441B1 (it) 2013-04-19
EP2375875B1 (fr) 2016-07-27
ITBO20100223A1 (it) 2011-10-13
PL2375875T3 (pl) 2017-01-31

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