EP0157702A2 - Plasma torch for soldering or cutting - Google Patents

Abstract

The plasma torch comprises a hollow torch body whose interior is connected to a source of plasma-producing gas, a hollow electrode lodged inside this body and electrically connected to an electric supply conductor, and a nozzle provided with an orifice for the outlet of the plasma. The feature of the invention is that the torch comprises a detachable annular skirt (4) which is assembled by a screwed connection with the torch body (1) and has two axially spaced-apart seats (17c,18b) respectively for the electrode (2) and the nozzle (3), and the electrode and the nozzle are freely slidably mounted in the skirt (4) and applied against their respective seats (17c,18b) solely under the action of the pressure of the plasma-producing gas.

Description

The present invention relates to a plasma welding or cutting torch.

Plasma welding or cutting torches are already known which comprise, inside a torch body, an electrode mounted coaxially inside a metal nozzle for guiding a plasma gas escaping through a axial orifice aligned with said electrode.

Plasma torches of this type have the disadvantage of being made up of a large number of parts, which results in a relatively high cost price. Furthermore, they do not offer any guarantee of safety due to the fact that the user of the torch may accidentally touch internal metallic parts under tension, when he has to dismantle the constituent elements of this torch.

The present invention aims to remedy these drawbacks by providing a plasma torch with a particularly simple design, the number of constituent elements of which is very small, low cost and very high security.

For this purpose this plasma welding or cutting torch comprising a torch body the interior of which is connected to a source of plasma gas, a hollow electrode housed inside this body and electrically connected to an electrical supply conductor , and a plasma outlet nozzle mounted opposite and at a distance from the electrode and pierced with an orifice for the plasma outlet, is characterized in that it comprises a removable annular skirt secured to the torch body and having at least one seat for the nozzle which is mounted to slide freely in the skirt and which is applied to its seat only under the effect of an elastic force.

According to an additional characteristic of the invention, the removable skirt of electrically insulating material is integral, in its part facing the torch body, with a first conductive sleeve screwed into a conductive element of the torch body and having, on its internal surface, a shoulder constituting the seat for the electrode, and it is also integral, in its end part which is opposite to that facing the torch body, with a second metal sleeve in which the nozzle is mounted to slide and which presents the seat of this nozzle, the first and second sleeves, being in communication by an axial passage of the skirt.

The plasma torch according to the invention has the advantage that it consists only of four main elements, namely the torch body and the skirt removably mounted on this torch body, as well as the electrode and the nozzle engaged in the skirt, said nozzle at least being able to slide freely in the latter. It is therefore, therefore, simple to disassemble and reassemble and its cost price is considerably reduced. Furthermore, the torch also has any guarantee of safety because, when the skirt is separated from the torch body, no live conductive part of this torch body is protruding, the conductive element d _L body of torch with which the first sleeve of the skirt is in electrical connection being housed in a hollow er part which is difficult to access from the outside.

• La figure 1 est une vue en coupe axiale d'une torche à plasma suivant l'invention.
• La figure 2 est une vue en coupe axiale des divers éléments constitutifs de la torche représentés séparés les uns des autres avant le montage de cette torche.

An embodiment of the present invention will be described below, by way of non-limiting example, with reference to the appended drawing in which:

• Figure 1 is an axial sectional view of a plasma torch according to the invention.
• Figure 2 is an axial sectional view of the various components of the torch shown separated from each other before mounting this torch.

The plasma torch according to the invention essentially comprises four elements which are independent of each other and which can be assembled together, namely a torch body 1, an electrode 2, a nozzle 3 and a removable skirt 4.

The torch body 1 comprises a central bell-shaped part 5 and a tubular lateral extension 6 terminated by a fitting 7, the central bell-shaped part 5 and the tubular lateral extension 6 being in ma electrically insulating plate. On the connection 7, with external toothing, a flexible and insulating pipe 8 for the arrival of a plasma gas is nested by force, this pipe 8 being held on the connection 7 by an external coaxial sleeve 9. The extension lateral tubular 6 of the torch body 1 is traversed by a conduit in which is housed a tube 11 of electrically conductive material. This tube opens, at its outer end, into the insulating sheath 8 and it is extended longitudinally at this point, inside the sheath 8, by a part of its periphery constituting a tab 12 folded transversely on itself and ensuring maintaining by crimping the end of an electrical supply conductor 13 housed in the pipe 8.

The bell-shaped part 5 of the torch body 1 has a central cavity 14 closed at its upper part and opening downwards. In this cavity 14 is housed a metal cap 15 with a cylindrical side wall 15a in which is drilled a hole which is engaged the internal end of the conductive tube 11 passing through the lateral extension 6. This conductive tube 11 is advantageously fixed to the metal cap 15 by welding. Furthermore, the cylindrical side wall 15a of the metal cap 15 has a thread 15b on its lower end portion extending below the hole where the end of the conductive tube 11 is fixed. This side wall 15a provided with the thread 15b stops at a certain distance from the lower end 5a of the bell-shaped part 5.

The removable skirt 4 comprises, for its part, an envelope 16 of insulating material, of annular shape, for example frustoconical with taper directed downward. This envelope 16 has, at its upper end, a lateral rim 16a intended to surround and cover the end 5a of the torch body .1. The envelope 16 is molded onto two metal sleeves, namely an upper electrode-carrying sleeve 17 and a lower nozzle-carrying sleeve 18. The envelope 16 has, between the two sleeves 17 and 18, a central passage 19 ensuring communication in meaning axial between the upper sleeve 17 and the lower sleeve 18.

The upper sleeve 17 has, on its upper upper part projecting from the casing 16 ,, a thread 21 intended to be screwed into the internal thread 15b of the cap 15 of the torch body 1. The sleeve 17 has a stepped internal surface and it comprises an upper part 17a of large internal diameter a and a lower part 17b of smaller internal diameter b, the parts 17a and 17b connecting to each other by a transverse annular shoulder 17c intended to form a seat for the electrode 2 as will be seen below.

Although in the preferred embodiment of the invention described above the removable skirt 4 is fixed to the torch body 1 by screwing, it goes without saying that any other fixing means could also be used for this purpose .

The lower sleeve 18 comprises, in the internal face of its lateral surface, a certain number of longitudinal grooves 18a which extend downwards and end in holes drilled in an annular front face 18b constituted by an internal flange terminating the sleeve 18 down. This annular front face 18b preferably has a frustoconical shape, converging downwards, in order to constitute a seat for the nozzle 3 as will be seen below.

The metal electrode 2 has an axial U-shaped section. It has a blind axial bore 22 open upwards, that is to say towards the inside of the torch body 1. Outside the electrode 2 has, from top to bottom, an annular flange 23 projecting outwards, then a cylindrical seat 24 of external diameter equal to the internal diameter b of the lower part 17b of the sleeve 17, then a frustoconical lower part 25, converging towards the bottom. This frustoconical lower part 25 is pierced, at the bottom of the bore 22, with at least one tangential hole 26 ensuring the exit of the plasma gas. Finally in the central part of the lower front wall re 27, relatively thick, of the electrode 2 is housed axially an insert 28, for example of zirconium, favoring the initiation of the arc.

According to an alternative embodiment, the electrode 2 could be screwed into the upper sleeve 17 of the skirt 4.

The last component part of the plasma torch according to the invention, namely the nozzle 3, comprises, at its upper part, a skirt 29 extending upward and which is connected to a relatively thick frustoconical lower part 31, downward taper. The skirt 29 is delimited by an external cylindrical lateral surface 32, of diameter equal to the internal diameter of the sleeve 18, and by a frustoconical internal lateral surface 33, having substantially the same conicity as the frustoconical lower part 25 of the electrode 2.

The frustoconical lower part 31 of the nozzle 3 is pierced right through with an axial hole 34. Furthermore, this frustoconical lower part 31 has, near its large upper base, an annular recess 35 of cylindrical shape and of equal diameter or slightly less than the diameter of the orifice delimited by the frustoconical front wall 18b of the sleeve 18.

When the plasma torch is assembled, as shown in FIG. 1, the upper sleeve 17 of the removable skirt 4 is screwed, by its thread 21, into the thread 15b of the cap 15 of the torch body 1, l electrode 2 is housed in the upper sleeve 17 and it is supported, by its upper flange 23, on the internal shoulder 17c, forming electrode seat, of the sleeve 17, and the nozzle 3 is engaged in the lower sleeve 18 in which it is held in abutment on the frustoconical front wall 18b of this sleeve, constituting the seat of this nozzle. The two seats 17c and 18b are offset axially relative to each other by a distance such that in operation the nozzle 3 is kept at a distance from the electrode 2, while being able to slide freely in the lower sleeve 18 so as to be able to come into contact with the electrode 2 and cause the initiation of an arc between the electrode 2 and the nozzle 3. The plasma gas which is supplied through the insulating pipe 8, penetrates inside the torch by flowing through the tube 11 extending through the lateral extension 6 of the torch body l, it then passes inside the cap 15 then it flows longitudinally downwards into the bore 22 of the electrode 2, and it exits from that -this tangentially through the hole or holes 26 to pass into the space delimited between the frustoconical lower part 25 of the electrode 2 and the nozzle 3. From there the gas is divided into two streams, namely a flow stream relatively low, representing from 10 to 20 S of the feed flow rate, which flows down inside the nozzle 3 and which exits this nozzle axially, through the hole 34, to form the plasma, and another current corresponding to the excess gas (from 80 to 90% of the supply flow), this excess gas current flowing longitudinally in the various internal grooves 18a of the sleeve 18, to exit the torch in the form of a plurality of jets surrounding the central jet forming the plasma. The circulation of the plasma gas is indicated by the arrows in the drawing.

The hole 26 which is drilled tangentially in the electrode 2 ensures the calibration of the gas flow rate and the production of a vortex in the space between the electrode 2 and the nozzle 3.

The electric current for supplying electrode 2 is brought to the latter due to the electrical connection provided between the upper conductive sleeve 17 and the metal cap 15 to which the tube 11 is welded.

In operation, when pressurized gas is supplied to the torch according to the invention, the electrode 2 and the nozzle 3 are pressed against their respective seats 17c and 18b only under the effect of the pressure of the gas. However, springs could also be used for this purpose.

The plasma torch according to the invention offers great security because, when the removable skirt 4 is removed, by unscrewing the threaded sleeve 17, the electrode 2 is automatically disconnected from the electric current source and moreover no metallic element protrudes from the body of the torch 1, the conductive cap 15 being embedded inside this body. This eliminates any risk of accidental contact of the user of the torch with a live metal part.

Claims (10)

1.- Welding or plasma cutting torch comprising a torch body the interior of which is connected to a source of plasma gas, a hollow electrode housed inside this body and electrically connected to a power supply conductor, and a plasma outlet nozzle mounted opposite and at a distance from the electrode and pierced with an orifice for the plasma outlet, characterized in that it comprises a removable annular skirt (4) secured to the torch body ( 1) and having at least one seat (18b) for the nozzle (3) which is mounted to slide freely in the skirt (4) and applied to its seat (18) only under the effect of an elastic force. 2. Torch according to claim 1, characterized in that the skirt (4) has two seats (17c, 18b) offset axially, respectively for the electrode (2) and the nozzle (3) which are both mounted at free sliding in the skirt (4) and applied to their respective seats (17c, 18b) only under the effect of an elastic force. 3. Torch according to claim 1 or 2, characterized in that the elastic force is the pressure of the plasma gas. 4.-welding torch or plasma cutting according to claim 1 characterized in that the removable skirt (4), of electrically insulating material, is integral, in its part facing the torch body (1), a first conductive sleeve (17) screwed into a conductive element (15) of the torch body (1) and having, on its internal surface, a shoulder (17c) constituting the seat for the electrode, and it is also integral, in its part extreme which is opposite to that facing the torch body, of a second metal sleeve (18) in which the nozzle (3) is slidably mounted and which presents the seat (18b) of this nozzle, the first and second sleeves (17,18) being in communication by an axis passage] (19) of the skirt (4). 5.- welding torch or plasma cutting according to any one of the preceding claims, characterized in that the torch body (1) comprises a central bell-shaped part (5) and a tubular extension (6) terminated by a connection (7), made of electrically insulating material, in that on the connection (7) is force fitted a flexible and insulating pipe (8) for the arrival of a plasma gas and in which is housed an electrical supply conductor (13), the tubular extension (6) of the torch body (1) is traversed by a conduit in which is housed a tube (11) made of electrically conductive material, this tube opening into the insulating sheath (8) and being will connect this place, at the end of the power supply conductor (13), the bell-shaped part (5) of the torch body (1) has a central cavity (14) closed at its upper part and s' opening downwards and in this cavity (14) is housed a metal cap (15) with a side wall eral cylindrical (15a) in which is drilled a hole which is engaged the internal end of the conductive tube (11) passing through the lateral extension (6) and which is fixed to the metal cap (15), and the cylindrical lateral wall (15a) of the metal cap (15) has a thread (15b) on its lower end extending below the hole where the end of the conductive tube (11) is fixed, this side wall (15a) provided with the thread (15b) s 'stopping at a certain distance from the lower end (5a) of the bell-shaped part (5). 6.- welding torch or plasma cutting according to claim 5 characterized in that the first upper sleeve (17) has, on its upper upper part projecting from the casing (16), a thread (21) intended to be screwed into the thread (15b) of the cap (15) of the torch body (1), this sleeve (17) has a stepped internal surface and it comprises an upper part (17a) of large internal diameter (a) and a lower part (17b) of smaller internal diameter (b), the parts (17a) and (17b) connecting to each other by a shoulder transverse annular (17c) forming the seat for the electrode (2). 7.- welding torch or plasma cutting according to any one of claims 4 to 6 characterized in that the second lower sleeve (18) comprises, in the inner face of its lateral surface, longitudinal grooves (18a) which s '' extend downwards and end in holes drilled in an annular front face (18b) constituted by an internal flange terminating the sleeve (18) downwards, this annular front face (18b) preferably having a frustoconical shape, converging down, to form the seat of the nozzle (3). . 8.- welding torch or plasma cutting according to any one of claims 4 to 7 characterized in that the metal electrode (2) has an axial U-shaped section, it has a blind axial bore (22) open towards the inside of the torch body (1), on the outside the electrode (2) has, from top to bottom, an annular collar (23) projecting towards the outside, then a cylindrical surface (24) of external diameter equal to the internal diameter (b) of the lower part (17b) of the sleeve (17), then a frustoconical lower part (25), converging downwards, this frustoconical lower part (25) being pierced, at the bottom of the bore (22), of at least one tangential hole (26) ensuring the exit of the plasma gas, and in the central part of the lower front wall (27) of the electrode (2) is housed axially an insert (28), for example in zirconium, favoring the initiation of the arc. 9.- welding torch or plasma cutting according to any one of claims 4 to 8 characterized in that the nozzle (3) comprises, at its upper part, a skirt (29) extending upward and which is connected to a relatively thick frustoconical lower part (31), with a taper directed downwards, the skirt (29) is delimited by an external cylindrical lateral surface (32), of diameter equal to the internal diameter of the sleeve (18), and by a frustoconical internal lateral surface (33), having substantially the same conicity as the frustoconical lower part (25) of the electrode (2), the frustoconical lower part (31) of the nozzle (3) is drilled right through with an axial hole (34) and presents, close to its large base su ^p E- higher, an annular shoulder (35) of cylindrical shape and of diameter equal to or slightly smaller than the diameter of the orifice delimited by the frustoconical end wall (18b) of the sleeve (18).

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