EP2036627A1 - Electrical machine for the deformation of profile ends - Google Patents

Abstract

The machine has a fixed frame (2) provided with single electrical motor (4) for displacing a mobile push carriage (8) along a longitudinal axis of the machine. The carriage is guided by the frame. The carriage simultaneously drives a cam carrier (16) and tool carrier (10). The cam carrier permits locking of a profile (3) between locking jaws of a jaw device (5). The tool carrier is integrated to a mandrel (14) for deforming an end of the profile under push force.

Description

The present invention relates to an electric machine for deforming the ends of a profile such as a tube, wire or the like into a specific shape.

Machines of this kind are known, but the movements of the movable elements according to their movements are ensured by several hydraulic devices.

The electric machine according to the present invention aims to use a single electric motor for all moving elements for the introduction, retention and deformation of the end of a profile in a specific form.

The electric machine for deforming the ends of a profile such as a tube, a wire or the like into a predetermined shape comprises a frame provided with a single electric motor providing along the longitudinal axis xx 'of said machine the displacements of a mobile push carriage guided on said frame, said mobile push carriage simultaneously driving on the one hand a cam holder for clamping the profile between clamping jaws of a jaw device and on the other hand a solidarity tool holder at least one punch allowing under a thrust force to deform the end of the profile.

The electric machine for deforming the ends of a profile such as a tube, wire or the like into a form determined in accordance with the present invention comprises other essential features which are described and protected in the dependent claims directly or indirectly dependent on the main claim.

• Figure 1 est une vue en perspective illustrant la machine électrique permettant la déformation des extrémités d'un profil en une forme déterminée suivant la présente invention.
• Figures 2 et 3 sont des vues de face et de dessus représentant la machine électrique permettant la déformation des extrémités d'un profil en une forme déterminée suivant la présente invention.
• Figure 4 est une vue de dessus montrant la mise en place et le réglage de la longueur de l'extrémité du profil à déformer au moyen de la machine électrique suivant la présente invention.
• Figure 5 est une vue de dessus illustrant le pré serrage des mors de serrage autour du profil avant la déformation de son extrémité au moyen de la machine électrique suivant la présente invention.
• Figure 6 est une vue de dessus représentant les mors de serrage en position serrée autour du profil avant la déformation de son extrémité au moyen de la machine électrique suivant la présente invention.
• Figure 7 est une vue de dessus montrant la machine électrique en position de frappe permettant au poinçon d'engager et de réaliser la déformation de l'extrémité du profil selon une forme déterminée.

The accompanying drawings, given by way of example, will provide a better understanding of the invention, the characteristics that it presents and the advantages that it is likely to provide:

• Figure 1 is a perspective view illustrating the electric machine for the deformation of the ends of a profile into a shape determined according to the present invention.
• Figures 2 and 3 are front and top views showing the electrical machine for deforming the ends of a profile into a shape according to the present invention.
• Figure 4 is a top view showing the establishment and adjustment of the length of the end of the profile to be deformed by means of the electric machine according to the present invention.
• Figure 5 is a top view illustrating the pre-tightening of the clamping jaws around the profile before the deformation of its end by means of the electric machine according to the present invention.
• Figure 6 is a top view showing the clamping jaws in a tight position around the profile before the deformation of its end by means of the electric machine according to the present invention.
• Figure 7 is a top view showing the electric machine in striking position allowing the punch to engage and perform the deformation of the end of the profile in a specific form.

We have shown in Figures 1 to 3 an electric machine 1 comprising a fixed frame 2 on which are assembled and assembled the various fixed and movable elements for the introduction, retention and deformation of the end of a profile 3 in a specific form.

The electric machine 1 comprises a single electric motor 4 integral with the frame 2 and providing all the displacements of all the movable elements along the longitudinal axis xx 'of said machine for retaining and deformation of the end of the profile 3 according to a specific form.

The electric machine 1 comprises moving elements which move along the main axes of symmetries xx 'and yy' of the electric machine 1 or parallel thereto and whose main axis xx 'passes through the profile 3 to be deformed and the motor Electric 4 ( figure 3 ).

The electric motor 4 is fixed on the frame 2 at one end of the electric machine 1, while opposite the latter and on the same longitudinal axis xx 'the frame 2 is secured to a device to jaws 5 for retaining the profile 3 to deform. The jaw device 5 consists of a first clamping jaw said fixed jaw 6 and a second clamping jaw said movable jaw 7.

The electric machine 1 comprises between the electric motor 4 and the jaw device 5 and centered on the longitudinal axis xx 'a movable thrust trolley 8 which is guided in translation on rails 9 integral with the frame 2.

The electric motor 4 comprises an output shaft associated with a transmission screw 24 of thrust forces whose free end cooperates with the movable thrust trolley 8 to ensure said carriage its movements along the longitudinal axis xx 'in order to bring it closer or away from the end of the profile 3 to deform.

The movable thrust trolley 8 comprises, centered on the longitudinal axis xx 'of the electric machine 1, a tool carrier 10 which is slidably mounted on a slide device 11 so that said tool carrier 10 can move relative to the movable carriage thrust 8 in a transverse direction and perpendicular to the longitudinal axis xx '. of the electric machine 1.

The tool carrier 10 is driven in its displacements by means of an electric jack 12 fixed on the mobile thrust carriage 8.

The tool holder 10 comprises retaining devices 13 allowing the fixing of punches 14 shaped to ensure the deformation by successive pressures of the free end of the profile 3 retained in the jaw device 5.

The tool holder 10 comprises between two punches 14 a material-making stop 15 for adjusting the length of the end of the profile 3 to be deformed.

The movable thrust carriage 8 comprises, shifted laterally with respect to the longitudinal axis xx 'of the electric machine 1, a cam holder 16 carried by a longitudinal axis cc' parallel to the longitudinal axis xx '.

The cam holder 16 is integral with a cam 17 of rectangular section cooperating as a function of its axial position and longitudinal displacements of the mobile thrust carriage 8 with a clamping device 18 actuating the movable clamping jaw 7 of the jaw device 5.

The cam holder 16 is rotated about its longitudinal axis cc 'by means of an electric or pneumatic jack 19 fixed on the mobile thrust carriage 8.

The rotation of the cam holder 16 about its longitudinal axis cc 'makes it possible to position the cam 17 in two different angular positions because of its rectangular section. Depending on the angular position of the cam 17, the latter acts or not on pressure rollers 20, 21 of the clamping device 18.

The electric machine 1 comprises on the fixed frame 2 a pre-clamping device 22 consisting of an electric or pneumatic jack 23 acting on the movable clamping jaw 7 of the jaw device 5 to allow pre-clamping of the profile 3 between the jaws 6, 7.

We have shown in Figures 4 to 7 the different steps and movements of the moving elements of the machine 1 for the conformation of the end of the profile 3 according to a specific form.

The figure 4 shows the adjustment of the length of the end of the profile 3 to be conformed.

For this, the profile 3 is positioned and held between the jaws 6, 7 of the jaw device 5.

The tool holder 10 is moved on the movable thrust trolley 8 in a direction parallel to the yy 'axis of the electric machine 1 by the electric or pneumatic cylinder 12 to position the material stopper 15 on the axis xx'.

The movable thrust trolley 8 is moved by the thrust transmission screw 24 connected to the electric motor 4 in the direction of the end of the profile 3 along the axis xx 'to bring against the end of the profile 3 the stop of take material 15 and adjust the length of the latter depending on the conformation to achieve.

Prior to moving the movable carriage 8, the cam gate 16 and more particularly the cam 17 is positioned (e) via the electric or pneumatic cylinder 19 in its angular position of smaller dimension so that said cam 17 does not come into operation. contact with the pressure rollers 20, 21 of the clamping device 18.

Indeed, during the displacement of the movable carriage 8 towards the end of the profile 3, the latter simultaneously moves the cam holder 16 and thus the cam 17 towards the clamping device 18. It is therefore necessary in the step of adjusting the length of the end of the profile 3 that the cam holder 16 is in the deactivated position so that the cam 17 comes into contact with the pressure rollers 20, 21.

The figure 5 shows the pre-tightening of the movable clamping jaw 7 of the jaw device 5 around the profile 3 before the deformation of its end.

For this, the electric or pneumatic cylinder 23 of the pre-clamping device 22 is actuated so that the movable jaw 7 comes to press pre-tightened against the profile 3 in order to maintain the latter between the jaws 6, 7 of the jaw device 5.

Also, the movable thrust trolley 8 is remote from the end of the profile 3 to be deformed, causing the cam holder 16 and the cam 17 to retract.

After moving the movable thrust trolley 8, the tool holder 10 is moved transversely by means of the electric or pneumatic cylinder 12 along the slide 11 in order to position the first punch 14 on the axis xx 'and in front of the end of the profile 3 to conform.

During movement of the tool holder 10, the electric or pneumatic cylinder 19 rotates the cam 17 to place the latter in its angular position of larger size.

This angular position will allow the cam 17 to come into contact with the pressure rollers 20, 21 of the clamping device 18 when the movable thrust carriage 8 is moved towards the end of the profile 3.

The figure 6 shows the clamping jaws 6, 7 in the tight position around the profile 3 just before the deformation of its end by means of the punch 14 of the tool holder 10.

The tight position of the jaw device 5 and more particularly the movable jaw 7 against the profile 3 is obtained by moving the movable thrust trolley 8 towards the end of the profile 3 to be shaped so that the cam 17 disposed in its angular position of greater dimension comes to bear against the pressure rollers 20, 21 of the clamping device 18.

The introduction of the cam 17 between the pressure rollers 20, 21 makes it possible to act more particularly on the mobile pressure roller 20 so that the latter, because of the dimensions of the cam 17, comes to push on a spring device 25 amplifying the pressure forces of the mobile pressure roller 20. Under the thrust of the mobile pressure roller 20, the spring device 25 exerts an amplified pressure allowing the movable jaw 7 to clamp and lock the profile 3 in the jaw device 5.

The figure 7 shows the electric machine 1 in striking position allowing the punch 14 to perform the deformation of the end of the profile 3 in a specific form.

This striking or conformation position of the end of the profile 3 is obtained by an additional displacement of the movable thrust trolley 8 under the effect of the transmission screw 24 connected to the electric motor 4 so that the punch 14 of the tool carrier 10 deform said profile 3.

The punch change 14 is obtained by a retreat of the movable thrust trolley 8. The recoil of the movable thrust trolley 8 is provided so as to release only the punch 14 from the end of the profile 3 without completely removing the cam 17 of the rollers pressers 20, 21 for maintaining the pressure force on the spring device 25 and the movable jaw 7 of the jaw device 5.

For this, the cam 17 has a working length which is sufficient to maintain the pressure rollers 20, 21 in pressure while the movable thrust carriage 8 makes movements of short stroke along the axis xx '.

The change of punch is obtained by moving the tool carrier in a direction transverse and parallel to the axis yy 'of the electric machine 1 so as to present on the axis xx' another punch 14 of different shape and complementary to continue conformation of the end of the profile 3. Depending on the conformation to be given to the end of the profile 3, it is possible that it is necessary to change several times punch 14 resulting in movement of the movable thrust carriage 8 and the tool holder 10 similar to those described above.

In the case where it is necessary after the conformation of a profile 3 to change the latter to conform another profile 3, the movable thrust carriage 8 is returned to its starting position allowing the cam 17 to pivot about its axis. cc 'in order to be placed in its angular position of smaller dimension releasing the pressure forces on the pressure rollers 20, 21 and thus on the movable jaw 7 of the jaw device 5.

It is noted that the profiles 3 are positioned between the jaws 6, 7 of the jaw device 5 via a feed device, not shown, for example to automate the supply of the electric machine 1.

The electric machine 1 is connected to a central programming and control unit, not shown, to act on all the mobile production elements.

Note that the machine 1 may comprise a protective cap 30 hinged to the fixed frame 2 and coming to close and protect the production area and the moving elements.

The electrical machine 1 may have a tool carrier 10 with a circular profile rotated about its axis and making it possible to accept a greater number of punches 14 or other tools for shaping the end of the profile 3.

It must also be understood that the foregoing description has been given by way of example only and that it in no way limits the scope of the invention which could not be overcome by replacing the execution details described. by all other equivalents.

Claims (12)

Electric machine for deforming the ends of a profile (3) such as a tube, a wire or the like in a specific form, characterized in that it comprises a frame (2) provided with a single electric motor (4) ) providing along the longitudinal axis xx 'of said machine (1) the displacements of a movable push carriage (8) guided on said frame (2), said mobile push carriage (8) simultaneously driving on the one hand a cam holder (16) for clamping the profile (3) between clamping jaws (6, 7) of a jaw device (5) and on the other hand a tool holder (10) integral with at least one punch (14) allowing under a thrust force to deform the end of the profile (3). Electric machine according to claim 1, characterized in that the electric motor (4) comprises an output shaft associated with a transmission screw (24) of thrust forces whose free end cooperates with the movable thrust carriage (8). to provide said carriage its displacements along the longitudinal axis xx '. Electric machine according to claim 1, characterized in that the movable thrust trolley (8) comprises, centered on the longitudinal axis xx ', the tool holder (10) which is slidably mounted on a slide device (11), so that said tool carrier (10) is movable by means of drive means (12) in a transverse direction and perpendicular to the longitudinal axis xx '. Electrical machine according to claim 1, characterized in that the tool holder (10) has retaining devices (13) for fixing punches (14). Electrical machine according to claim 1, characterized in that the tool holder (10) comprises between two punches (14) a material engagement stop (15) for adjusting the length of the end of the profile (3) to be deformed. Electrical machine according to Claim 1, characterized in that the movable thrust trolley (8) has, offset laterally with respect to the longitudinal axis xx ', the cam carrier (16) which is carried by a longitudinal axis cc' parallel to the longitudinal axis. longitudinal axis xx '. Electrical machine according to claim 1, characterized in that the cam holder (16) is integral with a cam (17) of rectangular section. Electrical machine according to Claim 1, characterized in that it comprises a clamping device (18) provided with pressure rollers (20, 21) which are actuated by the cam (17) of the cam carrier (16) in order to clamp the profile. (3) between the clamping jaws (6, 7) of the jaw device (5). Electrical machine according to Claim 8, characterized in that the clamping device (18) comprises a spring device (25) which amplifies the pressure forces of the mobile pressure roller (20) when the latter is in contact with the cam (17). . Electric machine according to claim 1, characterized in that the cam carrier (16) is rotated about its longitudinal axis cc 'by means of drive means (19) fixed to the movable carriage (8). in order to present the cam (17) in an angular position of greater dimension, which allows the clamping device (18) to block the profile (3) between the jaw jaws (6, 7) of the jaw device (5), or in an angular position of smaller size for releasing the profile (3) of said jaws. Electric machine according to Claim 1, characterized in that it comprises a pre-clamping device (22) acting on the movable clamping jaw (7) of the jaw device (5) to allow pre-clamping of the profile ( 3) between the jaws (6, 7). Electric machine according to Claim 1, characterized in that the tool carrier (10) has a circular profile.

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