MACHINE FOR LASER WORKING OF TUBES AND PROFILED SECTIONS WITH A SCANNING SYSTEM FOR SCANNING THE TUBE OR PROFILED SECTION TO BE WORKED

Abstract

The machine comprises: a working head (12) with a focussing device (18) arranged to focus a laser beam on the surface of the tube or profiled section (T) to be worked, a carriage (26) on which the working head (12) is mounted and a scanning system (20) arranged to scan at least a portion of the outline of the cross-section of the tube or profiled section (T). The carriage (26) is able to translate with respect to the tube or profiled section (T) both in a longitudinal direction (x) coinciding with the longitudinal axis of the tube or profiled section (T) and in a transverse direction (y). The scanning system (20) comprises at least one laser scanning module (20) comprising a laser emitter (22) arranged to emit a light blade (L) with which to illuminate a portion of the tube or profiled section (T) and a camera (24) arranged to acquire an image of the portion of tube or profiled section (T) illuminated by the light blade (L). The working head (12) and the at least one laser scanning module (20) are mounted on the carriage (26) so as to be drivingly connected for translation with said carriage (26) both in the longitudinal direction (x) and in the transverse direction (y).

Claims

1. Laser working machine for laser working of tubes and profiled sections, comprising a working head provided with a focussing device arranged to emit a focussed laser beam on a surface of the tube or profiled section to be worked, a carriage on which the working head is mounted, and a scanning system arranged to scan at least a portion of the outline of the cross-section of the tube or profiled section, wherein the carriage is mounted so as to be able to translate relative to the tube or profiled section both in a longitudinal direction (x) coinciding with the longitudinal axis of the tube or profiled section and in a transverse direction (y), wherein the scanning system comprises at least one laser scanning module having a laser emitter arranged to emit a light blade with which to illuminate a portion of the tube or profiled section, a camera arranged to acquire an image of the portion of tube or profiled section illuminated by said light blade, and a processing unit configured to process the images acquired by each camera to reconstruct the whole outline, or at least a portion thereof, of the cross-section of the tube or profiled section, and wherein the working head and said at least one laser scanning module are mounted on said carriage so as to be drivingly connected for translation therewith both in the longitudinal direction (x) and in the transverse direction (y).

2. Machine according to claim 1, wherein the laser scanning system comprises two or more laser scanning modules.

3. Machine according to claim 2, wherein the laser scanning modules are arranged in such a manner that the light blades generated by the respective laser emitters lie in a same plane.

4. Machine according to claim 3, wherein said plane is a vertical plane.

5. Machine according to claim 4, wherein said plane passes through the optical axis (o.sub.L) of the focussed laser beam emitted by the focussing device of the working head.

6. Machine according to claim 2, wherein the laser emitters of the laser scanning modules are arranged to emit light blades having the same wavelength.

7. Machine according to claim 2, wherein the laser emitters of the laser scanning modules are arranged to emit light blades having different wavelengths.

8. Machine according to claim 1, wherein the laser emitter and the camera of said at least one laser scanning module are mounted in such a manner that the optical axis (o.sub.1) of the laser emitter lies in a vertical plane and is inclined by a given angle () to the horizontal plane, while the optical axis (o.sub.2) of the camera lies in the same plane as the optical axis (o.sub.1) of the laser emitter and is inclined to the latter.

9. Machine according to claim 1, wherein said carriage is also mounted so as to be able to translate in a vertical direction (z) relative to the tube or profiled section.

10. Machine according to claim 1, further comprising a feeding device arranged to control translation of the tube or profiled section along its longitudinal axis (x) and rotation of the tube or profiled section about its longitudinal axis (x).

11. (canceled)

Description

[0015] Further characteristics and advantages of the present invention will result from the following detailed description, given purely by way of non-limiting example with reference to the appended drawings, where:

[0016] FIG. 1 is a perspective view partially showing a laser working machine for laser working of tubes or profiled sections provided with a scanning system according to an embodiment of the present invention;

[0017] FIG. 2 is a front elevation view of the machine of FIG. 1;

[0018] FIG. 3 is a side elevation view of the machine of FIG. 1; and

[0019] FIGS. 4 and 5 are a perspective view and a front view, respectively, schematically showing the arrangement of the laser scanning modules with respect to the tube or profiled section to be worked in the machine of FIG. 1.

[0020] The machine for laser working of tubes and profiled sections according to the present invention is described and illustrated herein with reference to its application to the working of tubes, but it is of course equally well applicable to the working of profiled sections. The tubes or profiled sections the machine is able to work may have cross-sections with different shapes and sizes.

[0021] With reference to the drawings, a machine for laser working of tubes according to an embodiment of the present invention comprises, in per-se-known manner, a base generally indicated 10, a working head 12 arranged to carry out a laser working (such as for example a cutting working) on a tube T, a feeding device 14 arranged to cause the tube T to move forward along a longitudinal direction x (coinciding with the direction of the longitudinal axis of the tube T), a guide device 16 arranged to guide the tube T while the latter is being moved forward by the feeding device 14 and a scanning system arranged to scan at least a portion (for example an upper portion) of the outline of the cross-section of the tube T.

[0022] The working head 12 comprises, in per-se-known manner, a focussing device 18 arranged to emit a focussed laser beam onto the surface of the tube T. The scanning system comprises two laser scanning modules 20 (or, more generally, at least one laser scanning module), each of which comprises in turn a laser emitter 22 arranged to emit a light blade L to illuminate a portion of the tube T to be worked and a camera 24 arranged to acquire an image of the portion of tube T to be worked illuminated by the light blade L emitted by the laser emitter 22. Although in the illustrated embodiment the laser scanning system comprises two laser scanning modules 20, it might also comprise more than two modules.

[0023] The working head 12 is carried by a head-carrying structure 26. The head-carrying structure 26, and therefore also the working head 12, is mounted on a carriage 28 so as to be able to translate in the vertical direction (direction z). The carriage 28 is mounted in turn so as to be able to translate in a transverse direction (direction y) with respect to the base 10 of the machine. Although in the illustrated embodiment the transverse direction y is a horizontal direction, it might even be a direction inclined by a given angle to the horizontal (and obviously also lying in a plane perpendicular to the longitudinal axis of the tube T). The working head 12 is therefore movable in the transverse vertical plane, i.e. in a plane perpendicular to the longitudinal axis x of the tube T, with two degrees of freedom, namely with a translational degree of freedom in the vertical direction z and with a translational degree of freedom in the transverse direction y. Moreover, as it is provided for in the illustrated embodiment, the working head 12 may be mounted on the head-carrying structure 26 so as to be able to tilt about a tilting axis t oriented transversely (or, according to another embodiment, not shown, about two tilting axes perpendicular to each other).

[0024] The feeding device 14 is preferably arranged to control not only the translation of the tube T along the direction of the longitudinal axis x (forward movement), but also the rotation of the tube T about the longitudinal axis x. In case of a machine for laser cutting of tubes, it is possible to cut the wall of the tube T along any desired cutting line by properly controlling the degrees of freedom of the movement of the working head 10 (translation along the vertical direction z, translation along the transverse direction y, rotation about the tilting axis t and, possibly, translation along the direction of the longitudinal axis x) and the degrees of freedom of movement of the tube T (translation along the direction of the longitudinal axis x and rotation about the longitudinal axis x).

[0025] The two laser scanning modules 20 are mounted on a support structure 30, which is in turn attached to the carriage 28. The laser scanning modules 20 move therefore, along with the carriage 28, and hence along with the working head 10 as well, in the transverse direction y. According to a further embodiment (not shown), the support structure on which the laser scanning modules are mounted is attached to the head-carrying structure, or more generally to a carriage on which the working head is mounted, whereby the laser scanning modules are drivingly connected for translation with the working head both in the transverse direction y and in the vertical direction z.

[0026] In the illustrated embodiment, the support structure 30 has a generally C-shaped configuration, with a cross-member 32 that is attached to the carriage 28 and with a pair of side arms 34 that extend longitudinally from the opposite ends of the cross-member 32. Respective mounting flanges 36 are securely connected to the free ends of the side arms 34. Similar mounting flanges 38 are securely connected each to an end of a respective laser scanning module 20. Each laser scanning module 20 can thus be easily mounted on the support structure 30 by connection, for example by screws 40, of the respective mounting flange 38 with the mounting flange 36 of the respective side arm 34.

[0027] Each laser emitter 22 is arranged to generate a light blade L with a given angle of aperture (commonly known as fan angle) a, equal for example to 20. Preferably, each laser emitter 22 is provided, in per-se-known manner, with an optical system configured so as to allow uniform diffusion of the light all over the aperture of the blade, or at least over the largest part thereof. Preferably, each laser emitter 22 is mounted in such a manner that its optical axis (indicated o.sub.1) lies in a vertical plane. Moreover, the optical axis o.sub.1 of each laser emitter 22 is inclined by a given angle to the horizontal, as shown in FIG. 5. Preferably, the optical axes o.sub.1 of the laser emitters 22 lie in a same vertical plane. Preferably, the vertical plane where the optical axes o.sub.1 of the laser emitters 22 lie passes through the optical axis o.sub.L of the laser beam emitted by the focussing device 14 of the working head 10. In this way, the scanning system scans the outline of the tube or profiled section just at the cross-section where the laser beam emitted by the working head acts during working. This obviously allows to ensure the highest possible precision.

[0028] According to an embodiment, the laser emitters 22 of the laser scanning modules 20 are selected so as to emit light blades L having the same wavelength, in which case the cameras 24 shall acquire the images of the portion of tube T illuminated by the light blades at different times (preferably, at times very close to each other), in order to avoid, especially with tubes having a small-sized cross-section, undesired effects of overlapping of the light blades which might reduce the quality of the images acquired by the cameras. Alternatively, the laser emitters 22 of the laser scanning modules 20 are arranged to emit light blades L having different wavelengths, in which case the cameras 24 can simultaneously acquire the images of the tube T.

[0029] Each camera 24 is mounted so that its optical axis (indicated o.sub.2) lies in the same plane as the optical axis o.sub.1 of the laser emitter 22 of the same laser scanning module 20 and is inclined to the latter so as to enable to acquire the image of the portion of surface of the tube T to be worked that is illuminated by the light blade L emitted by the laser emitter 22. The cameras 24 are connected by a suitable data transfer line (not shown, but of per-se-known type) to a processing unit (also not shown and also of per-se-known type) configured to process the images acquired by each camera to reconstruct the geometry of the whole outline, or at least of a portion thereof, of the cross-section of the tube T to be worked.

[0030] A laser scanning system such as the one described above allows to reconstruct the geometry of at least a portion of the outline of the cross-section of a tube or profiled section of any shape and size, exploiting the translational degree of freedom of the laser scanning modules in the transverse direction (and possibly also in the vertical direction) and the rotational degree of freedom of the tube or profiled section to be worked about its longitudinal axis. Furthermore, a laser scanning system such as the one described above allows to detect the actual positioning of the outline (or at least of the portion of outline acquired by the laser scanning modules) with respect to a reference axis, for example the nominal longitudinal axis of the tube or profiled section to be worked.

[0031] Naturally, the principle of the invention remaining unchanged, the embodiments and the constructional details may vary widely from those described and illustrated purely by way of non-limiting example, without thereby departing from the scope of the invention as defined in the appended claims.