EP1097761A1 - Device for forming tube ends - Google Patents

Abstract

The machine consists of a frame (3) with a clamp and lock (1, 2) and at least one tool (12a, 13a) in a holder (12, 13) for shaping the end of a clamped tube. The tools and holders are advanced and retracted by a pusher assembly (26, 28) with a coupling for each tool holder, and a guide (29) to control the movement of the assembly in line with the tube axis (x - x). The pusher assembly is actuated by a mechanism with two levers (33, 34) and one or two pneumatic cylinders (38).

Description

The invention relates to a machine for forming ends of tubes, comprising mounted on a frame, means for holding and clamping a tube adapted to position it so that it extends along a longitudinal axis (x), said forming axis, at least one tool for forming one end of said tube mounted on a tool holder, and means for translational movement of each tool holder able to move it along the axis (x) between an advanced position in which they exert a forming force capable of making it possible to form the end of the tube, and a withdrawal position adapted to allow the unloading of the formed tube and the loading a new tube.

All forming machines designed to date include, for the translational movement of the tools, a hydraulic cylinder, currently often controlled in speed and position by an encoder by through a servo valve.

Although this solution is implemented by all manufacturers since the appearance of the first forming machines and has never been questioned to date, it turns out, however, that it presents several disadvantages.

Indeed, and in the first place, it requires the use of a central very powerful hydraulics, with all the well-known drawbacks inherent in these last, in order to obtain, on the one hand, sufficient energy for the operations of forming, and on the other hand, the shortest possible cycle time in order to increase the productivity. In addition, whatever the power of the hydraulic power plant, the cycle time cannot be optimized below the time required for deployment and the retraction of the cylinder over a stroke for example of the order of 60 mm, which practice leads to obtaining an optimal elementary cycle time for a forming pass of the order of 3 seconds.

Furthermore, according to this solution, the whole machine is subjected to violent shocks which, on the one hand, make it necessary to design machines robust capable of withstanding these shocks, and on the other hand, lead in the long run to fatigue and wear of the components of these machines.

Despite these drawbacks, and as mentioned above, no alternative has been proposed since the appearance of forming machines, that is to say since at less than forty years, aimed at replacing the hydraulic cylinder by means of displacement in translation of the tool likely to overcome said drawbacks.

The present invention aims to overcome this absence of alternative and with the primary objective of providing a forming machine with cycle times are optimized compared to those of current forming machines.

Another object of the invention is to provide a machine for training not requiring a high-power hydraulic unit.

Another object of the invention is to provide a machine for form whose potential fatigue and wear and tear of the various constituent organs are reduced compared to those of the organs of current forming machines.

Another object of the invention is to provide a machine for form with a small footprint.

• un ensemble-poussoir doté de moyens d'accrochage de chaque porte-outil,
• des moyens de guidage de l'ensemble-poussoir adaptés pour permettre le coulissement dudit ensemble-poussoir selon une trajectoire longitudinale axée sur l'axe (x),
• des moyens de déplacement en translation de l'ensemble poussoir comportant :
  • deux biellettes disposées dans le prolongement l'une de l'autre et articulées l'une par rapport à l'autre, au niveau d'une de leurs extrémités au moyen d'un axe d'articulation, dit axe central, orthogonal à l'axe (x), l'une des dites biellettes, dite biellette antérieure, étant articulée au niveau de son extrémité opposée, sur l'ensemble-poussoir au moyen d'un axe d'articulation, dit axe avant, perpendiculaire à l'axe (x), et l'autre biellette, dite biellette postérieure, étant articulée, au niveau de son extrémité opposée, sur un élément de butée, au moyen d'un axe d'articulation, dit axe arrière, perpendiculaire à l'axe (x),
  • des moyens d'actionnement des biellettes adaptés pour déplacer de façon alternative l'axe central d'articulation desdites biellettes selon un axe (y) perpendiculaire à l'axe (x), entre deux positions extrêmes situées symétriquement de part et d'autre dudit axe (x).
• et un organe limiteur d'effort taré de façon à se déclencher et se comprimer uniquement au-delà d'un seuil d'effort de formage prédéterminé, et pour rester fixe en-deçà de ce seuil.

To this end, the invention relates to a forming machine as described in the preamble to the present application, the means for translational movement of each tool holder comprising:

• a pusher assembly provided with means for hooking each tool holder,
• means for guiding the pusher assembly adapted to allow said pusher assembly to slide along a longitudinal trajectory centered on the axis (x),
• means for translational movement of the pusher assembly comprising:
  • two rods arranged in the extension of one another and articulated with respect to each other, at one of their ends by means of a hinge pin, called central axis, orthogonal to the 'axis (x), one of the said links, called the front link, being articulated at its opposite end, on the pusher assembly by means of an articulation axis, called the front axis, perpendicular to the axis (x), and the other link, called rear link, being articulated, at its opposite end, on a stop element, by means of an articulation axis, said rear axis, perpendicular to the axis (x),
  • rod actuation means adapted to alternately move the central axis of articulation of said rods along an axis (y) perpendicular to the axis (x), between two extreme positions located symmetrically on either side of said axis (x).
• and a force limiting member calibrated so as to trigger and compress only beyond a predetermined forming force threshold, and to remain fixed below this threshold.

According to the invention, the sinusoidal return path of the tool results from a simple linear movement of the central axis of articulation of the rods between one and the other of the extreme positions of said axis on either side of the axis longitudinal (x). Consequently, each forming pass is obtained by means of the simple linear displacement, in a single displacement direction and on a short stroke, of the central articulation axis of the rods, between two positions extremes located on either side of the longitudinal axis (x), the neutral position in which said central axis being coaxial with said longitudinal axis (x) corresponding to the advanced forming position of the tool.

According to this principle, and first of all, it turns out that time cycles is optimized compared to that of current forming machines, leading to a noticeable increase in productivity. For example, it proven in practice that the time of an elementary cycle for a pass of forming is reduced to a duration of the order of 0.7 seconds.

In addition, according to the principle of the invention, means actuation of relatively low power rods make it possible to obtain, especially at the end of forming where the energy required is the greatest, an effort sufficient to perform said forming. This effort having been shown to increase exponential when moving the tool to its forming position, this forming machine further comprises a force limiting member calibrated so as to be trigger and compress only beyond a forming effort threshold predetermined and to remain fixed below this threshold. In addition, this limiting organ force advantageously consists of a prestressed gas spring.

According to a first advantageous variant, the limiting member of effort is integrated into the pusher assembly and calibrated so as to trigger and compress only beyond a predetermined training effort threshold exerted on said pusher assembly.

According to another advantageous variant, this limiting member force can also be interposed between the rear link and the element of stop of the latter, and calibrated so as to fire and compress only beyond a predetermined force threshold exerted on said link.

According to an advantageous embodiment, the means actuating rods consist of at least one cylinder with a rod articulated on the central axis of articulation of the rods. However, so advantageous, these actuating means comprise two cylinders arranged and fueled in opposition.

The fact of using two cylinders arranged and supplied with opposition allows, from the same energy source, to double the power on the entire stroke of the tool, and to produce an identical force whatever the direction of movement of the central axis of articulation of the rods.

In practice, and advantageously, the energy required necessary for carrying out the forming can thus be obtained by means of one or two pneumatic cylinders, and the forming machine therefore does not require, in these conditions, to be associated with a hydraulic power plant, hence the elimination of all drawbacks inherent in the present of such a hydraulic power plant.

It should be noted, moreover, that according to the principle of the invention, and this, whatever the nature of the actuating means, the sinusoidal movement imposed on the tool proves to be a "soft" movement without shocks not likely to lead to wear and fatigue of the organs of the forming machines.

This advantage linked to the design of the means of movement tools to produce forming machines on the one hand, whose constraints are considerably simplified and on the other hand, floor space eminently reduced compared to that of current machines.

Another advantage of the forming machine according to the invention lies in the fact that the design of the means for translational movement of the tools guarantees that the same stroke of these tools is obtained, and therefore a quality of uniform forming, regardless of the direction of movement of the axis of central articulation of the rods.

According to an advantageous embodiment, the forming machine according to the invention comprises means for adjusting the longitudinal position, according to the axis (x), of the rear articulation axis of the rods. Such adjustment means allow, in fact, to adjust the advanced forming position of the tool, which turns out in practice variable depending on the type of forming to be performed and therefore the tool used.

In addition, in view of this adjustment, and advantageously, the rear link is articulated at its rear hinge pin on a slide capable of moving axially along the axis (x), the means for adjusting the position of said rear articulation axis comprising a shim of variable thickness interposed between said slide and a frame element, and means for displacement of said shim capable of allowing the thickness of said shim to be adjusted interposed between the slide and the frame element.

In addition, the forming machine advantageously comprises means for digital control of the means of displacement of the hold capable of control the movements of said wedge when moving the tool from its advanced forming position to its retracted withdrawal position.

The adjustment of the advanced position of the tool is thus carried out during the retraction of the tools towards their withdrawal position, that is to say during a phase where the slide is not subjected to any axial force. Therefore, on the one hand, this adjustment is made in masked time, and on the other hand, the displacement of the shim can be carried out without the latter being subjected to any effort tending to oppose said displacement.

Advantageously, the means of displacement of the hold include a cam integral with said shim, associated with an eccentric system able to generate a sinusoidal longitudinal displacement of said cam along an axis orthogonal to the axis (x).

According to an advantageous embodiment, the forming machine according to the invention is of the type comprising a tool holder barrel rotatable around a rotation axis (xl) parallel to (x), pierced with a plurality of housings uniformly distributed around the axis (xl) capable of each housing a tool holder, and means for driving in rotation of said tool holder barrel capable of indexing the position of the latter so as to center the housings on the axis (x).

• une butée escamotable de positionnement de l'extrémité à former des tubes portée par des moyens de déplacement aptes à la déplacer selon un axe perpendiculaire à l'axe (x) entre une position de butée où ladite butée est axée sur ledit axe (x) et une position escamotée apte à permettre l'opération de formage,
• des moyens de réglage de la position longitudinale de la butée escamotable, portant les moyens de déplacement de cette dernière, et dotés d'organes d'entraínement longitudinal s'étendant au travers du barillet support porte-outils, coaxialement avec l'axe de rotation dudit barillet.

In this case, this forming machine advantageously comprises:

• a retractable stop for positioning the end to form tubes carried by displacement means able to move it along an axis perpendicular to the axis (x) between a stop position where said stop is centered on said axis (x) and a retracted position suitable for allowing the forming operation,
• means for adjusting the longitudinal position of the retractable stop, carrying the means for moving the latter, and provided with longitudinal drive members extending through the tool holder support barrel, coaxially with the axis of rotation of said barrel.

The stroke of the tools, defined by that of the displacements of the central articulation axis of the links, being constant to the nearest adjustment clearance determined by the position of the means for adjusting the position of the hinge pin rear of said links, this arrangement leads to providing a solution which allows without increasing the footprint of the forming machine, to provide this last of tools of different lengths.

In addition, advantageously, the forming machine according to the invention comprises means for numerically controlling adjustment means from the longitudinal position of the retractable stop.

Furthermore, advantageously, each housing of the barrel tool holder support includes a countersink facing the pusher assembly, said tool pusher assembly comprising an end section of frustoconical shape combined with said milling. This arrangement ensures perfect centering of the pusher assembly relative to the selected tool holder, centering which cannot be mechanically insured due to the impossibility of machining without tolerance the barrel housings, with rigorously precise center distances from each other to others.

• l'organe support porte-outils est fixe en translation et comporte des logements de section adaptée pour autoriser un coulissement longitudinal des porte-outils à l'intérieur desdits logements, et des moyens d'indexation de la position longitudinale de chacun desdits porte-outils à l'intérieur de son logement,
• chaque porte-outil et l'ensemble-poussoir comportent des organes d'accrochage conjugués, adaptés pour coopérer lorsqu'un porte-outil est amené en regard de l'ensemble-poussoir de façon à solidariser lesdits porte-outil et ensemble-poussoir.

According to another advantageous embodiment which can incorporate the one described above, the forming machine according to the invention is of the type comprising a tool-carrying support member pierced with a plurality of housings capable of each housing a tool holder, and means for moving said tool support member capable of indexing the position of the latter so as to center the housings along the axis (x). In this case, advantageously:

• the tool holder support member is fixed in translation and has housings of section adapted to allow longitudinal sliding of the tool holders inside said housings, and means for indexing the longitudinal position of each of said tool holders inside his home,
• each tool holder and the pusher assembly comprise combined hooking members, adapted to cooperate when a tool holder is brought opposite the pusher assembly so as to secure said tool holder and pusher assembly.

• chaque porte-outil comporte un tronçon d'extrémité arrière adapté pour s'étendre à l'extérieur du logement dans lequel est inséré ledit porte-outil, et présentant une gorge annulaire ménagée dans sa paroi périphérique,
• les moyens d'indexation comprennent un élément d'indexation fixe en translation et en rotation, doté d'une nervure piriphérique agencée pour venir se loger dans la gorge annulaire des porte-outils, ladite nervure étant interrompue de façon à libérer le porte-outil amené en regard de l'ensemble-poussoir,
• l'ensemble-poussoir comporte un tronçon d'extrémité antérieur doté d'une rainure transversale de clavetage apte à loger le tronçon d'extrémité de chaque porte-outil amené par rotation du barillet en regard dudit ensemble-poussoir.

In addition, advantageously, when the tool holder support member is a rotary barrel about an axis of rotation (xl) parallel to the axis (x):

• each tool holder comprises a rear end section adapted to extend outside the housing in which said tool holder is inserted, and having an annular groove formed in its peripheral wall,
• the indexing means comprise a fixed indexing element in translation and in rotation, provided with a piriphérique rib arranged to be received in the annular groove of the tool holders, said rib being interrupted so as to release the tool holder brought next to the pusher assembly,
• the pusher assembly comprises a front end section provided with a transverse keying groove capable of accommodating the end section of each tool holder brought by rotation of the barrel opposite said pusher assembly.

• la figure 1 est une vue longitudinale partiellement en coupe par un plan axial A d'une machine à former conforme à l'invention,
• la figure 2 en est une vue longitudinale partielle, partiellement en coupe par le plan axial A, représentant à échelle agrandie le barillet support porte-outils et la portion avant de l'ensemble-poussoir,
• la figure 3 en est une coupe transversale par un plan vertical B au droit de la liaison porte-outils/ensemble-poussoir,
• la figure 4 est une coupe longitudinale partielle par le plan axial A représentant la liaison porte-outils/ensemble-poussoir,
• la figure 5 est une vue frontale de la face d'extrémité arrière de cette machine à former,
• et les figures 6a à 6c sont des vues longitudinales schématiques des positions successives des biellettes lors d'une passe de formage.

Other characteristics, objects and advantages of the invention will emerge from the detailed description which follows, with reference to the appended drawings which represent, by way of non-limiting example, a preferred embodiment. In these drawings:

• FIG. 1 is a longitudinal view partially in section through an axial plane A of a forming machine according to the invention,
• FIG. 2 is a partial longitudinal view thereof, partially in section through the axial plane A, showing on an enlarged scale the tool holder support barrel and the front portion of the pusher assembly,
• FIG. 3 is a cross section thereof through a vertical plane B in line with the tool holder / push-button assembly,
• FIG. 4 is a partial longitudinal section through the axial plane A representing the tool holder / pusher assembly connection,
• FIG. 5 is a front view of the rear end face of this forming machine,
• and Figures 6a to 6c are schematic longitudinal views of the successive positions of the rods during a forming pass.

The forming machine shown by way of example in the figures is adapted to form the end of tubes presented axially, along an axis of forming (x), facing forming tools and kept tight for the operation forming between two clamping jaws 1, 2 mounted on a frame 3 and shown in the figure 1.

Such clamping jaws 1, 2 actuated between a position open tube loading and unloading, and a closed position of clamping and holding said tubes, can be of any conventional type known in itself, or preferably of the type described in the patent application filed today together with this application, in the name of the plaintiff.

In addition to these two clamping jaws 1, 2, the forming machine according to the invention comprises in the first place, rotatably mounted relative to the frame 3 around a rotation axis (x1) parallel to the bending axis (x), a support cylinder for 4 tool holders.

This barrel 4 is rotatably mounted, by means of bearings such as 5, around the front section of a hollow shaft 6 centered on the axis (x1), and is secured in translation on said hollow shaft. In addition, this barrel 4 is conventionally pierced with a plurality of longitudinal cylindrical housings such that 7, in the example six in number, uniformly distributed around the axis (x1) to the same distance from the latter adapted to allow each housing 7 coaxially with the forming axis (x) by rotation of said barrel. Each of these housings 7 further comprises a countersink 8 at the outlet of this last at the rear side of the barrel 4.

The barrel 4 finally has a peripheral wall having a rear end section 9 machined in the form of a toothed wheel suitable for meshing with a pinion 10 disposed above the upper generator of said barrel, and mounted on the motor shaft of a brushless motor 11 adapted to allow to index the position of the various housings 7 relative to the forming axis (x).

The forming machine also includes a set of tool holders of cylindrical shape such as 12, 13, adapted to be inserted by sliding in the housings 7 of the barrel 4, and each equipped, in a conventional manner, an anterior face pierced with a blind bore into which is inserted and secured a tool such as 12a, 13a.

Each of these tool holders 12, 13 also has a posterior end section having an annular groove delimiting a rib rear 14 of keying adapted to extend outside the housing 7 corresponding, in the posterior extension of the latter.

In addition, in order to index the longitudinal position of the tool holders 12, 13 inside their respective housings, the forming machine has a disc-shaped plate 15 secured around the hollow shaft 6 in view of the rear face of the barrel 4, said plate having a groove peripheral 16 capable of accommodating the keying rib 14 of said tool holders.

As shown in Figures 3 and 4, this indexing plate 15 has, in addition, a truncated circular shape defining a horizontal flat 17 without peripheral groove 16, positioned so as to allow, on the one hand, the introduction of each tool holder 12, 13 into the housing 7 extending coaxially with the forming axis, and on the other hand, the actuation of the tool holder 13 located in said housing by the pusher assembly, as described below.

The forming machine according to the invention also comprises as shown in Figures 1 and 2, a retractable stop 18 for positioning longitudinal of the end of the tubes before tightening of the latter by the jaws of tightening 1, 2.

This retractable stop 18 consists of a square in inverted L shape defining a vertical stop wall 18a, and the other wall of which 18b horizontal is secured under the rod of a jack 19 arranged vertically, of so as to move said stop between a stop position where its vertical wall 18a is centered on the forming axis, and a retracted position above said axis of forming.

This retractable stop 18 is, moreover, associated with means for adjusting its longitudinal position making it possible to adjust its position the along the forming axis (x).

For this purpose, as shown in Figure 2, the cylinder body 19 is secured to a vertical plate 20, itself secured to the face front of a sleeve 21 slidably mounted along an anterior portion of the hollow shaft 6 extending in the anterior extension of the barrel 4, said sleeve being locked in rotation relative to said hollow shaft by a key system 22.

The sleeve 21 further comprises a tapped blind bore in which is inserted the threaded front end 23a of a rod 23 extending to the interior of the hollow shaft 6, and whose rear end is rotated by means of a toothed belt 24 actuated by a motor 25.

The forming machine according to the invention comprises also a pusher assembly of the tool holder 13 positioned along the forming axis, and means for translational movement of said pusher assembly.

First, the pusher assembly is constituted mainly of three components forming a set comprising two elements telescopic 26, 27, and a force limiting member 28 interposed between said elements and tared so as to fire and compress only beyond one predetermined force threshold exerted on said pusher assembly.

The first of the telescopic elements 26, said pusher posterior, consists of a hollow cylinder mounted sliding in translation inside a bearing 29 for guiding in translation centered on the forming axis (x) and secured under the generator of the hollow shaft 6. In addition, this rear pusher 26 comprises, at short distance from its posterior end, an internal transverse wall 30 of separation.

The force limiting member 28 consists in turn of a spring with prestressed gas housed in the rear pusher 26 so as to come into abutment against the anterior face of the partition wall 30 of the latter. Such a spring to prestressed gas 28 has the particularity of compressing only beyond of a given axial force threshold, and to remain fixed below this threshold.

The second of the telescopic elements 27, said pusher front, consists of a full cylindrical lifter partially housed in the rear pusher 26 in a translational guide bearing 31 disposed in this rear pusher 36, so that said front pusher abuts against the gas spring 28.

This anterior pusher 26 further comprises, at its front face, a horizontal through groove 32 of keying of suitable shape to accommodate the rear groove 14 of the tool holder 13 brought into the forming axis by barrel rotation 4.

• une première biellette antérieure 33 articulée au niveau de son extrémité opposée, sur le poussoir postérieur 26 au niveau d'un axe d'articulation avant 36 coaxial avec l'axe de formage,
• une seconde biellette postérieure 34 articulée au niveau de son extrémité opposée sur un coulisseau 37 monté dans un alésage de guidage ménagé dans le bâti 3, au niveau d'un axe d'articulation arrière 50 coaxial avec l'axe de formage.

The means for translational movement of this pusher assembly comprise, in the first place, two links 33, 34 articulated relative to each other around a central articulation axis 35:

• a first front link 33 articulated at its opposite end, on the rear pusher 26 at a front articulation axis 36 coaxial with the forming axis,
• a second rear link 34 articulated at its opposite end on a slide 37 mounted in a guide bore formed in the frame 3, at a rear articulation axis 50 coaxial with the forming axis.

These translational displacement means include, in in addition, two actuators 38, 39 for actuating the rods 33, 34, arranged and supplied in opposition, and whose rods are articulated on the central axis of articulation 35 said links.

The translational displacement means finally comprise means of adjustment over a stroke of the order of 2 mm, of the advanced position of the pusher assembly and therefore of the tool holder 13 actuated by the latter.

These adjustment means comprise, firstly, a shim 40 of trapezoidal section housed in a vertical slide formed in the frame 3 to the rear of the slide 37, said shim having an anterior face inclined by relative to the vertical adapted to come into contact with the rear face of said slide by means of a ball / spring system shown schematically at 41.

These adjustment means further comprise means for displacement in translation of the wedge 40 able to move it vertically in its slide so as to adjust the longitudinal position along the forming axis of the slide 37.

These displacement means comprise a cam 42 constituted by the lower extension of the wedge 40, at the end lower of which are mounted two superimposed rollers 43, 44 of axes of rotation parallel to the forming axis.

These displacement means further comprise a disc 45 mounted eccentrically on the shaft of a rotary drive motor 46 of this disc, said disc having a peripheral rim 47 and being arranged to so that the rollers 43, 44 come into contact with the peripheral rim 47 on the one hand and on the other side of the latter, at the level of the upper generator of the disc.

As shown in Figure 6a, in the retracted position of the pusher assembly, the central articulation axis 35 of the rods 33, 34 is offset relative to the forming axis, in a first position corresponding to the deployed state of one of the jacks 38 and in the retracted state of the other jack 39.

This retracted position corresponds to a positioning of the anterior pusher 26 adapted to allow, as shown in FIG. 2, to bring a tool holder 13 coaxially with the forming axis, by rotation of the barrel 4, and automatically hooking said tool holder to said anterior pusher.

In addition, in this remote position, the tube to be formed is loaded between clamping jaws 1, 2 after adjusting its positioning longitudinal by actuation of the retractable stop 18.

• une position intermédiaire correspondant à la position avancée maximale de l'outil 13a, où cet axe central 35 est coaxial avec l'axe de formage,
• une position déportée par rapport à l'axe de formage, opposée à la position initiale, dans laquelle l'ensemble-poussoir se trouve dans une position reculée identique à la précédente, éventuellement au jeu de réglage près.

As shown in Figures 6b and 6c, each forming pass is obtained by controlling the retraction of the jack (in example 38) initially deployed and the deployment of the jack (in example 39) initially retracted. Indeed, this actuation of the jacks 38, 39 leads to bring the central axis 35 of articulation of the rods 33, 34 successively in:

• an intermediate position corresponding to the maximum advanced position of the tool 13a, where this central axis 35 is coaxial with the forming axis,
• a position offset relative to the forming axis, opposite the initial position, in which the pusher assembly is in a retracted position identical to the previous one, possibly apart from the adjustment clearance.

In addition, during each forming pass, and once the tool 13 brought into its maximum advanced position, the gas spring 28 is triggered when the force exerted becomes greater than the calibration of said spring, causing a sliding of the rear pusher 26 relative to the front pusher 27, and leading to a limitation of the forming effort exerted.

Finally, it should be noted that the adjustment of the maximum position Advance of the tool 13a is advantageously carried out during the return of the pusher assembly towards its remote position, that is to say in masked time for a period where the slide 37 is not subjected to any axial force.

Claims (16)

Machine for forming ends of tubes, comprising, mounted on a frame (3), means (1, 2) for holding and clamping a tube adapted to position it so that it extends along a longitudinal axis ( x), said forming axis, at least one tool (12a, 13a) for forming one end of said tube mounted on a tool holder (12, 13), and means for translational movement of each tool holder ( 12, 13) able to move it along the axis (x) between an advanced position in which they exert a forming force capable of making it possible to form the end of the tube, and a withdrawal position adapted to allow the unloading of the tube formed and the loading of a new tube, said forming machine being characterized in that the means for translational movement of each tool holder (12, 13) comprise: a pusher assembly (26-28) provided with means (32) for hooking each tool holder (12, 13), guide means (29) of the pusher assembly (26-28) adapted to allow the sliding of said pusher assembly along a longitudinal trajectory centered on the axis (x), means for translational movement of the pusher assembly (26-28) comprising: two rods (33, 34) arranged in the extension of one another and articulated with respect to each other, at one of their ends by means of a hinge pin (35) , said central axis, orthogonal to the axis (x), one of the said links (33), called the anterior link, being articulated at its opposite end, on the pusher assembly (26-28) by means an articulation axis (36), called the front axis, perpendicular to the axis (x), and the other link (34), called the rear link, being articulated, at its opposite end, on an element abutment (37), by means of a hinge pin (50), said rear axis, perpendicular to the axis (x), means (38, 39) for actuating the links (33, 34) adapted to alternately move the central axis of articulation (35) of said links along an axis (y) perpendicular to the axis (x), between two extreme positions located symmetrically on either side of said axis (x), and a force limiting member (28) calibrated so as to trigger and compress only beyond a predetermined forming force threshold, and to remain fixed below this threshold. A forming machine according to claim 1, characterized in that the means for actuating the links (33, 34) comprise at least one cylinder (38, 39) with a rod articulated on the central axis (35) of articulation of said links. A forming machine according to claim 2, characterized in that the means for actuating the links (33, 34) comprise two jacks (38, 39) arranged and fed in opposition. A forming machine according to one of claims 2 or 3, characterized in that each cylinder (38, 39) is a pneumatic cylinder. A forming machine according to one of the claims previous, characterized in that the force limiting member (28) is integrated in the pusher assembly (26, 28) and calibrated so as to trigger and compress only beyond a predetermined forming effort threshold exerted on said push-set. A forming machine according to one of claims 1 to 5, characterized in that the force limiting member is interposed between the link rear (34) and the abutment element (37) of the latter, and calibrated so as to trigger and compress only beyond a predetermined effort threshold exerted on said link. A forming machine according to one of the claims previous, characterized in that the force limiting member consists of a spring prestressed gas (28). A forming machine according to one of the claims previous, characterized in that it comprises means (40-47) for adjusting the longitudinal position, along the axis (x), of the rear articulation axis (50) of the links (33, 34). A forming machine according to claim 8, characterized in that the rear link (34) is articulated at its articulation axis rear (50) on a slide (37) capable of moving axially along the axis (x), the means for adjusting the position of said rear hinge pin comprising a shim (40) of variable thickness interposed between said slide and a frame element, and means (42-47) for moving said shim capable of allowing adjustment the thickness of said wedge interposed between the slide (37) and the frame element. A forming machine according to claim 9, characterized in that it comprises digital control means means (42-47) of displacement of the wedge (40) capable of controlling the movements of said wedge during displacement of the tool (13a) from its advanced forming position to its position withdrawn. A forming machine according to one of claims 9 or 10, characterized in that the means for moving the wedge (40) comprise a cam (42) integral with said wedge, associated with an eccentric system (43-47) capable of generate a sinusoidal longitudinal displacement of said cam along an axis orthogonal to the axis (x). A forming machine according to one of the preceding claims, comprising a barrel (4) tool holder support (12, 13) rotatable about a rotation axis (x1) parallel to (x), pierced with a plurality of housings uniformly distributed around the axis (x1) each capable of housing a tool holder (12, 13), and means (10, 11) for driving in rotation said support barrel (4) capable of indexing the position of the latter so as to center the housings on the axis (x), said forming machine being characterized in that it comprises: a retractable stop (18) for positioning the end to form tubes carried by displacement means (19) able to move it along an axis perpendicular to the axis (x) between a stop position where said stop is oriented on said axis (x) and a retracted position suitable for allowing the forming operation, means for adjusting (20-25) the longitudinal position of the retractable stop (18), carrying the displacement means (19) of the latter, and provided with longitudinal drive members extending through the support barrel (4), coaxially with the axis of rotation of said barrel. A forming machine according to claim 12, characterized in that it includes digital control means adjustment means (20-25) of the longitudinal position of the retractable stop (18). A forming machine according to one of claims 12 or 13, characterized in that each housing of the support barrel (4) comprises a countersink (8), facing the pusher assembly (26-28), said pusher assembly comprising an end section of frustoconical shape conjugated with said milling. A forming machine according to one of the preceding claims, comprising a support member (4) tool holder (12, 13) pierced with a plurality of housings capable of each housing a tool holder (12, 13), and means (10, 11) for moving said support member capable of indexing the position of the latter so as to center the housings along the axis (x), said forming machine being characterized in that: the support member (4) is fixed in translation and has housings of section adapted to allow longitudinal sliding of the tool holders (12, 13) inside said housings, and indexing means (15) of the longitudinal position of each of said tool holders inside its housing, each tool holder (12, 13) and the pusher assembly (26-28) comprise hooking members (14, 32) combined, adapted to cooperate when a tool holder (12, 13) is brought in look of the pusher assembly (26-28) so as to secure said tool holder and pusher assembly. A forming machine according to claim 15, in which the support member (4) is a rotary barrel about an axis of rotation (x 1) parallel to the axis (x), characterized in that: each tool holder (12, 13) has a rear end section adapted to extend outside the housing in which said tool holder is inserted, and having an annular groove (14) formed in its peripheral wall, the indexing means comprise an indexing element (15) fixed in translation and in rotation, provided with a peripheral rib (16) arranged to be housed in the annular groove (14) of the tool holders (12, 13 ), said rib being interrupted so as to release the tool holder (13) brought opposite the pusher assembly (26-28), the pusher assembly (26-28) comprises a front end section provided with a transverse keying groove (32) capable of accommodating the end section of each tool holder (13) brought in by rotation of the barrel ( 4) opposite said pusher assembly.

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