FR2949698A1 - PLASMA TORCH WITH REMOVABLE HEAD WITH HEAD ALIGNMENT SYSTEM - Google Patents

Abstract

The plasma cutting torch comprises a torch body (2), a torch head (1) removably attached to the body, and a fixation unit (3) for joining the torch head with the torch body. The torch head comprises an axial core making unit cooperating with a first housing placed in the torch body to co-axially position the torch head and body according to main axis (4) of the torch, and an angular core making unit cooperating with a second housing placed in the torch body and head to rotationally position the torch head around the axis of the torch with respect to the torch body. The plasma cutting torch comprises a torch body (2), a torch head (1) removably attached to the body, and a fixation unit (3) for joining the torch head with the torch body. The torch head comprises an axial core making unit cooperating with a first housing placed in the torch body to co-axially position the torch head and body according to main axis (4) of the torch, and an angular core making unit cooperating with a second housing placed in the torch body and head to rotationally position the torch head around the axis of the torch with respect to the torch body. The torch head further comprises a fluid or electrical connection in its upstream end (1a) and projecting towards outside of the head for inserting in the housing placed at downstream end of the body, when the torch head is assembled to the torch body. The torch body comprises a fluid or electrical connection in its downstream end and projecting towards outside of the body for inserting in the housing placed at upstream end of the head, when the torch head is assembled to the torch body. The axial core making unit is formed of a cylindrical wall axially projecting according to the axis of the torch, and has a first height greater than height of the fluid or electrical connections. The angular core making unit is formed of an expansion axially projecting according to the axis of the torch and having a second height, which less than the first height and greater than the height of the fluid or electrical connections. Independent claims are included for: (1) a torch head; (2) a torch body; and (3) a process for plasma arc cutting a metal piece including carbon steel, stainless steel and aluminum and its alloy.

Description

The invention relates to a plasma torch with removable head, the rapid assembly and disassembly on the base or torch body is facilitated through the use of polarizers for easy and accurate alignment of the head on the torch body. Plasma cutting torches with removable heads have two main parts that can be assembled or disassembled from each other, namely a base or torch body usually fixed to a structure, such as a carrier with a movable beam for example, and a nose or torch head that is removable.

Examples of plasma cutting torches with removable heads are in particular known from EP-A-599709, GB-A-2091594, EP-A-801882 and EP-A-941018. The base or torch body is an interface between the electrical generator, the high frequency and / or high voltage box required for the arc ignition, the gas control box and the cooling system.

As a result, the pipes and electrical wires coming from the different elements converge towards the base which groups together the various fluid inlets and outlets, namely cooling liquid, plasma gas and protective gas, as well as the electrical connections for the cathode and the electrodes. boot and driver circuits. The nose or head of the torch contains the consumables of the torch, namely an electrode, an upstream gas diffuser, an upstream nozzle, a gas downstream diffuser and a downstream nozzle, as well as the internal distribution circuits of the gases and the cooling liquid. These different consumables erode more or less quickly, when using the torch, and it is necessary to replace them with new consumables after, in general, a few hours of use, for example after 2 hours or more of cutting. However, being able to separate the torch head from the torch body, that is to say from the base, is very practical from a point of view of productivity compared to torches with a head that can not be dismantled because this makes it possible to prepare in advance a torch head including new consumables and connect it to the torch body immediately after dismounting the head whose consumables are worn. This is done without loss of time and therefore almost without loss of productivity. Then, while the torch head newly mounted on the body is used to perform a cutting operation, the other torch head which has just been disengaged from the torch body, that is to say from the base , can be dismantled, used consumables can be extracted and replaced by new consumables. The head will be ready to be reassembled when the life limit of consumables of the other head will be reached.

The assembly / disassembly of a torch head on a torch body is done by means of a ring, generally threaded, which makes it possible to fix the torch head to the base which comprises a complementary thread, and whose tightening ensures the tightness of the connections of the fluid conduits and the good contact between the electrical connections. Usually, this ring is made of electrically insulating material.

During each change of the head of the torch, and particularly during its mounting on the base, that is to say the fixed torch body, the alignment of the head of the torch and the torch body is essential to allow a connection of the head torch body not only fast but also that does not deteriorate the electrical and fluid connections protruding from the upstream end of the head and which must come to fit into housing fittings in the torch body so as to ensure continuity of the fluid (gas and coolant) and electrical connections of the torch. To do this, the axis of the torch head must be collinear with the axis of the torch body, and two parts must also be aligned angularly.

However, in known torches, such alignment and often approximate and often leads to loss of time during mounting of the head on the torch body, or even damage to the ends of the fluidic and electrical connections because the operator must proceed by trial and error until the correct angular and axial connection positions are found.

If arranging a single key within the torch head allows to align the two parts angularly, the search for this keying by trial and error by the operator must be made at the same time as the alignment of the axes. However, this implies that the fluid and electrical connections are found, during the insertion tests of the head connections in the dedicated housing of the body, resting on surfaces or sharp edges of the torch and leads, to more or less quickly, to bad electrical contacts and / or leakage of fluids, that is to say gas, or coolant, between the base and the head of the torch. The problem that arises is therefore that it is possible to easily manually connect the head of a plasma torch to the torch body without encountering the aforementioned problems, in particular by avoiding deterioration of the fluidic and electrical connections of the head. The solution of the invention is a plasma cutting torch for precise and fast axial and angular alignment, comprising a torch body, a detachable torch head adapted and adapted to be assembled to or disassembled from said torch body, and fastening means for securing the head to the torch body, characterized in that: - the torch head or the torch body comprises at least one axial polarizing means cooperating with a first housing arranged in the torch body or the head torch, respectively, so as to position the torch head and the torch body coaxially along the main axis of the torch, and - the torch head or the torch body comprises at least one angular polarizing means cooperating with a second housing arranged in the torch body or the torch head, respectively, so as to angularly position about the axis of the torch, the torch head by relative to the torch body while maintaining the alignment of the axes of the head and the torch body. Depending on the case, the torch of the invention may comprise one or more of the following features: the torch head comprises, at its upstream end, at least one outwardly projecting fluid or electrical connection adapted to and designed to fit into at least one fitting housing arranged at the downstream end of the body, when the torch head is assembled to the torch body. the torch body comprises, at its downstream end, at least one outwardly projecting fluid or electrical connection adapted to and adapted to fit into at least one coupling housing arranged at the upstream end of the torch head, when the torch head is assembled to the torch body. - The torch head comprises at least one axial polarizing means and at least one polarizing means, and the torch body comprises at least a first housing or at least a second housing cooperating respectively with said axial polarizing means and angular polarizing means. - The axial polarizing means is formed of a wall projecting axially along the axis of the torch. - The polarizing means has a first height Hx greater than the height Hr or connections. - The axial polarizing means is formed of a generally cylindrical wall. - The angular polarizing means is formed of an expansion projecting axially along the axis of the torch and having a second height Hn such that: Hr <Hn <Hx. The invention also relates to the elements taken separately from such a plasma torch, namely: on the one hand, a torch head intended for a torch according to the invention, characterized in that the angular polarizing means and the axial keying means are carried by said torch head, the angular keying means being arranged between the axial polarizing means and the axis of the torch head; and on the other hand, a torch body intended for a torch according to the invention, characterized in that it comprises a first and a second housing designed and capable of receiving the angular polarizing means and the axial polarizing means of a torch head, in particular of the torch head according to the invention. Furthermore, the invention also relates to a method of arc plasma cutting, in which a torch according to the invention is used to cut a metal part, in particular carbon steel, stainless steel, aluminum or in aluminum alloy. The present invention will be explained in more detail with reference to the appended figures, in which: FIG. 1 schematizes a plasma cutting torch with a demountable head according to a preferred embodiment of the invention, shown disconnected from the torch body, and FIG. 2 is a sectional view of the torch of FIG. 1; FIG. 3 is a detailed view of the polarizers of the torch head of FIG. 1; FIG. 4 is a sectional view of the head of FIG. torch of Figure 1. Figure 1 shows a plasma cutting torch 1 removable head shown disassembled position of the body 2 torch, also called base. The head 1 comprises conventionally at its downstream end lb, an electrode, a nozzle and a protective cap.

The attachment of the head 1 to the torch body 2 is conventionally made by screwing with a threaded metal ring 3 located at the upstream portion 1a of the torch head 1, cooperating with a thread arranged at the downstream portion. torch body 2.

The ring 3 is free and mobile in rotation around the outer peripheral wall of the torch head 1, that is to say around the main axis 4 of the torch, and also in translation along the axis 4 of the torch head 1. The assembly of the torch head 1 to the torch body 2 to form an assembled torch requires a good axial and angular alignment of the head 1 and the body 2 so as to avoid the deterioration of the connectors 7 of fluids and electric present at the upstream end of the torch head 1. According to a preferred embodiment of the invention, the upstream portion 1a of the torch head 1 contains two polarizers 5, 6 which allow the axial alignment, thanks to the axial polarizer 5, and then angularly, thanks to the angular polarizer 6, independently and quickly, as shown in Figures 2 and 3. The axial alignment is provided by the axial polarizer 5 which is formed of a cylindrical extension of the most upstream portion of the torch head 1. This cylindrical extension 5 is housed in a first housing 15 of complementary shape 15 arranged coaxially in the body 2, as visible in Figures 2 and 3. Once this cylindrical extension 5 engaged in the first housing 15 of the base 2, the head 1 of the torch can rotate about the axis 4 of the torch so as to align the angled polarizer 6 present on the upstream portion of the torch head 1 with a second housing 16 also located in the downstream portion of the body 2 of torch. The angular alignment is then performed without having lost the collinearity between the axis of the torch head 1 and the axis of the torch body 2. The torch head 1 can then be assembled to the torch body 2 and these two parts secured to each other by screwing the fixing ring 3. Sealing and electrical contacts are then assured without risk of damaging the electrical and fluid connections. As illustrated in FIG. 3, the axial polarizer 5 is the highest (height Hx) that the connectors 7 (height Hr) protrude outwardly from the torch head 1 so that when the operator approaches the part upstream of the torch head 1 of the downstream part of the body 2, said axial polarizer 5 comes into contact with the first torch body 2, that is to say the base. More precisely, this axial protruding protrusion 5 of cylindrical shape is inserted in a first housing 15 of complementary cylindrical shape arranged in the body 2, which allows to obtain a correct axial alignment of the head 1 relative to the body 2 torch.

It is then necessary to engage the axial polarizer 5 in the receptacle 15 located in the base 2 until the angular polarizer comes into contact with the base 2. Then the operator has only to operate a rotary movement around the axis 4 of the torch to angularly align the torch head 1 and the body 2 since the collinearity of the connectors 7 and the housings 17 with connectors receiving these connections 7 is then provided by the polarization key 6 which is then inserted in turn in a second housing 16 arranged in the base 2. It should however be ensured that the height (Hn) of the angle key 6 is greater than that of the connections (7) fluids and of electricity but less than the height (Hx) of the axial polarizer 5, that is to say that Hx> Hn> Hr, with respect to a common plane P perpendicular to the axis 4 and passing through the base of the connectors 7, as illustrated in FIG. 4. By way of non-limiting example, the Hx may be between 20 mm and 30 mm, the height Hn may be between 23 mm and 13 mm, and the height Hr may be between 20 mm and 10 mm. The operator can then fully engage the torch head 1 in the body 2 while providing the necessary alignment for a tight connection of the fluid connections 7 and a very good contact of the electrical connectors 7 between the torch head 1 and the base 2, and this without risk of damage to the connectors 7 since they never come up against the base 2. It should be noted that the shape of the polarizers can be any. Thus, in the embodiment illustrated in the Figures, the angular polarizer 6 has a half-moon shape but it can also take other equivalent forms, for example half-moon with slot in the middle, square, rectangular, polygonal ....

The torch head 1 may also include a plurality of angled polarizers 6 and therefore the body 2 may have a plurality of housings 16 for receiving these angled polarizers 6. The angular polarizer (s) is not necessarily located near the cylindrical wall forming the axial polarizer 6 may also be arranged in the head 1 near the axis 4 of the torch. Similarly, the axial polarizer 5 of the torch head 1 is not necessarily completely cylindrical. It may for example be formed of a cylindrical wall which is subdivided, split, or may have expansions or grooves on its outer faces and / or internal cooperating with grooves or corresponding expansions arranged in the body 2 torch. The foregoing description has been made for a preferred embodiment in which the axial 5 and angular key 6 and the connectors 7 are arranged on the head 1, and the first and second housings 15, 16 and the connector housings 17, in which these polarizers 5, 6 are housed, and the fluid and electrical connections 7, respectively, are arranged in the body 2. However, it is quite possible to proceed in the opposite direction, that is to say to arrange the polarizers 5, 6 on the body and the housings 15, 16 on the head 1. io

Claims (11)

Revendications1. Plasma cutting torch comprising a torch body (2), a detachable torch head (1) adapted and adapted to be assembled to or disassembled from said torch body (2), and fixing means (3) for fastening the head (1) to the torch body (2), characterized in that: - the torch head (1) or the torch body (2) comprises at least one axial polarizing means (5) cooperating with a first housing (15) arranged in the torch body (2) or the torch head (1), respectively, so as to position the torch head (1) and the torch body (2) co-axially along the axis. main (4) of the torch, and - the torch head (1) or the torch body (2) comprises at least one angular polarizing means (6) cooperating with a second housing (16) arranged in the torch body ( 2) or the torch head (1), respectively, so as to angularly position around the axis (4) of the torch, the torch head (1) by relative to the torch body (2). 2. Torch according to claim 1, characterized in that the torch head (1) comprises at its upstream end (la) at least one fitting (7) of fluid or electrical outwardly projecting adapted to and designed for to be inserted in at least one fitting housing (17) arranged at the downstream end (12) of the body (2), when the torch head (1) is assembled to the torch body (2). 3. Torch according to claim 1, characterized in that the torch body (2) comprises at its downstream end (12) at least one outwardly projecting fluid or electrical connection (7) suitable for and designed to fit into at least one coupling housing (17) provided at the upstream end (1a) of the torch head (1), when the torch head (1) is connected to the body (2) torch. 4. Torch according to one of the preceding claims, characterized in that: - the torch head (1) comprises at least one axial polarizing means (5) and at least one angular polarizing means (6), and - the body torch (2) comprises at least a first housing (15) or at least a second housing (16) cooperating respectively with said axial polarizing means (5) and angular polarizing means (6). 5. Torch according to one of the preceding claims, characterized in that the axial biasing means (5) is formed of a wall projecting axially along the axis (4) of the torch. 6. Torch according to claim 5, characterized in that the polarizing means has a first height (Hx) greater than the height (Hr) or connectors (7). 7. Torch according to one of claims 5 or 6, characterized in that the axial biasing means (5) is formed of a cylindrical generally cylindrical wall. 8. Torch according to one of the preceding claims, characterized in that the polarizing means (6) is formed of an expansion projecting axially along the axis (4) of the torch and having a second height (Hn) such that: Hr <Hn <Hx. 15 9. Torch head (1) for a torch according to one of the preceding claims, characterized in that the angular polarizing means (6) and the axial polarizing means (5) are carried by said torch head (1), the angular polarizing means (6) being arranged between the axial polarizing means (5) and the axis (4) of the torch head (1). 10. torch body (2) for a torch according to one of the preceding claims, characterized in that it comprises a first (15) and a second (16) housing adapted to and adapted to receive the angular polarizing means ( 6) and the axial keying means (5) of a torch head (1), in particular the torch head (1) according to claim 9. 11. A method of arc plasma cutting, in which a torch (1) according to one of claims 1 to 8 is used to cut a metal part, in particular carbon steel, stainless steel, aluminum or aluminum alloy.