MARKING PROCESS OF AN OBJECT AND RELATED MARKING APPARATUS

Abstract

A marking process of an object comprising providing a processing device/unit/member/circuit having a word processing software and a display and operationally connected to an apparatus for the marking of an object having a marking head, entering one data by the word processing software suitable for being engraved on an object, switching on a detecting device/unit/member/circuit which are positioned above a work top of the apparatus to receive the object to be marked, positioning the object to be marked above the work top, acquiring an image of the object to be marked and sending it to the word processing software to show it on the display, checking via the display whether the data entered is at least partly superimposed on the image of the object, and starting the marking of the object.

Claims

1. A marking process of an object comprising: a) providing processing means having a word processing software and a display and operationally connected to an apparatus for the marking of the object having a marking head; b) entering one data by means of the word processing software suitable for being engraved on the object; c) switching on detecting means which are positioned above a work top of the apparatus to receive the object to be marked; d) positioning the object to be marked above the work top; e) acquiring an image of the object to be marked and sending the image to the word processing software to show the image on the display; f) checking via the display whether the data entered is at least partly superimposed on the image of the object; and g) starting the marking of the object.

2. The marking process according to claim 1, comprising: a step h1) of manually displacing the object on the work top until the checking step f) via the display is met.

3. The process according to claim 1, comprising: a step h2) of moving the marking head above the object on the work top until the checking step f) via the display is met.

4. The marking process according to claim 1, comprising: a step h3) of moving the work top until the checking step f) via the display is met.

5. The marking process according to claim 1, comprising: a step h4) of moving said data via said word processing software depending on a predefined desired alignment between the object and the data to be marked.

6. The marking process according to claim 1, wherein said apparatus is a laser apparatus and comprises at least one deflection mirror moved depending on the desired alignment between the object and the data to be marked.

7. The marking process according to claim 3, wherein said marking head is moved after that the alignment between said data and said object has been set via said word processing software depending on a predefined desired alignment.

8. (canceled)

9. The marking process according to claim 1, wherein said checking step f) comprises the step of directly controlling on the display whether the data is at least partly superimposed on the two-dimensional image of the object to be marked.

10. The marking process according to claim 1, wherein said step e) of acquiring an image of the object is carried out in a continuous manner and/or via a photography/snapshot.

11. An apparatus for the marking of an object, the apparatus comprising: a marking head; a work top suitable for receiving the object to be marked; detecting means mounted above the work top and adapted to acquire at least one image of said object when the detecting means is positioned on the work top; and processing means provided with a display and comprising a word processing software for entering a data to be marked on the object, wherein said processing means configured to superimpose the image of said object on said data depending on a predefined desired alignment between the object and the data to be marked.

12. The apparatus according to claim 11, the apparatus comprising: a device capable of generating a laser light beam towards said marking head for the laser engraving of said object to be marked; and at least one deflection mirror to deflect said laser light beam towards said marking head.

13. The apparatus according to claim 1, the apparatus comprising: movement means in signal communication with said processing means and intended to move said at least one deflection mirror and/or said marking head depending on the desired alignment between the object and the data to be marked.

14. The apparatus according to claim 11, wherein said processing means comprise a word processing software which are configured to move said data depending on a predefined desired alignment between the object and the data to be marked.

15. The apparatus according to claim 11, wherein said marking head comprises a marking tool for the mechanical engraving of said object to be marked.

16. The marking process according to claim 1, comprising: a step h1) of manually displacing the object on the work top until the checking step f) via the display is met; a step h2) of moving the marking head above the object on the work top until the checking step f) via the display is met; a step h3) of moving the work top until the checking step f) via the display is met; and a step h4) of moving said data via said word processing software depending on a predefined desired alignment between the object and the data to be marked.

17. The marking process according to claim 16, wherein the steps h1), h2), h3) and h4) can be carried out at least partly in combination thereof.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] Further characteristics and advantages of the marking process and of the related apparatus made according to the present invention will result more evident from the description below of a preferred example of embodiment, given as an indication and not limited to, with reference to the annexed figures, in which:

[0019] FIGS. 1 and 2 are schematic views of the laser marking apparatus according to the present invention,

[0020] FIGS. 3 to 9 are purely indicative schematic views of the phases of the marking process of an object according to the present invention,

[0021] FIGS. 10a and 10b are schematic views of the apparatus according to the present invention according to further embodiments.

EMBODIMENTS OF THE INVENTION

[0022] With reference to the example in FIG. 1, an apparatus 1 is shown provided with a marking head 4 for marking and/or engraving an object P according to the present invention.

[0023] In the remainder of the present description and in the subsequent claims, reference will be made to the apparatus 1 in relation to a preferably laser marking solution. The present invention, however, also applies to different marking solutions such as, e.g., mechanical engravings of the dot peen, impact, scribe, roll, with mechanical presses, hot, electrolytic type, etc. In this case the marking head will be provided with an appropriate marking tool for the mechanical engraving of the object to be marked.

[0024] In accordance with an embodiment, the apparatus 1 comprises a laser beam generating device 2 suitable for generating a beam of laser light along an optical emission path 5 which, suitably deflected by at least one or more deflection mirrors 3, is sent towards the marking head 4. The marking head 4 may be provided with one or more optical means to focus the laser beam along the optical emission path 5 towards the work top L on which the object P to be marked is positioned.

[0025] The generating device 2 and the deflection mirror 3 are preferably housed in an enclosure 6 which moves on the work top L. The marking head 4 is attached to the enclosure 6 to be oriented, in use, towards the work top L. In particular, the enclosure 6 is mounted on a motorised vertical carriage 7 attached to the work top L to allow the marking head 4 to be moved away from and/or approached to the work top L along a vertical direction z.

[0026] In addition, by means of appropriate means of movement, e.g. motorized linear guides (not illustrated), associated with the enclosure 6, it is also possible to move the marking head 4 horizontally so that it can be moved with respect to the work top L at will on a three-dimensional system x, y and z.

[0027] In accordance with one embodiment, the deflection mirror 3, or any other deflection mirrors, may also be moved by appropriate movement means, for example, according to the techniques described in the patent IT 1408796 under the name of the Applicant and incorporated herein as a reference.

[0028] As shown in the example in FIG. 3, the apparatus 1 according to the invention is connected to the processing means 8 (e.g. a pc or a plc) provided with a display 9. The processing means 8 are provided with a proprietary word processing software of the WYSIWYG type for entering the data D (texts and/or images) to be engraved on the object P. Once the data D has been entered on screen, a trigger command can be sent to the apparatus 1 which activates the laser beam in order to replicate the data D on the object P by marking it.

[0029] Preferably, the word processing software also allows setting further parameters for the graphic processing of the data to be marked, such as, e.g., magnifying, rotation, font selection, etc., and more generally managing all the on-screen processing operations which are required before sending the trigger command to carry out the actual marking.

[0030] Conveniently, the laser beam can also be used to determine the height of the object P by means of techniques known to an expert in the field and not described in detail herein (e.g. by means of triangulation systems, flight time calculation, etc.).

[0031] Advantageously, the apparatus 1 according to the invention is also provided with one or more detecting means 10 adapted to acquire an image of the object to be marked P when the latter is positioned on the work top L. In this case, the detecting means 10 may comprise a camera vision system (e.g. a CCD or CMOS technology type camera) mounted in the enclosure 6 and positioned along an optical receiving path 11 so as to be able to frame the entire surface of the work top L and thus to acquire the image of the object P positioned in any part of the work top L.

[0032] It should be noted that the acquired images are analysed by the processing means 8 in order to determine at least one distinctive feature of the image itself that is representative of the object P. The determination of the distinctive feature of the acquired images is carried out by means of predetermined recognition algorithms known to an expert in the sector and not described herein in detail. These recognition algorithms detect, for example, the salient points (or otherwise called “feature points”) of the images themselves to determine the type of the object to be marked. According to some embodiments, the determination of the type of the object is carried out through an algorithm of the “SIFT” type (Scale-invariant feature transform).

[0033] The camera 10 is preferably arranged on the side of the marking head 4.

[0034] As shown in the example in FIG. 2, the orientation of the camera 10 is such that the latter is located along an optical receiving path 11 not coinciding with respect to the optical emission path 5. In particular, the optical receiving path 11 is oriented with respect to the optical emission path 5 by an angle comprised between 10° and 45°, preferably 30°.

[0035] Preferably, the three-dimensional image of the acquired object P is transformed by the processing means 8 into a two-dimensional format so that it can be displayed on the display 9 while using the word processing software. In this case, once the object P has been positioned on the work top L, the camera 10 acquires the image of the object P which is processed by the PC 8 so that it can be displayed on the display 9 in a two-dimensional format.

[0036] With reference to the examples in FIGS. 3-9, some examples of the process according to the invention are illustrated, in particular how the input data D are entered into the word processing software, before proceeding with the acquisition and marking of the object P, and the steps for marking the “HELLO” text on an object P.

[0037] As shown in the example in FIG. 3, one operator types in the text “HELLO” using the word processing software mounted on board the PC 8. The text is shown on screen on the display 9 of the PC 8 as it will be subsequently marked on the object. Subsequently, the operator can proceed with the positioning of the object P to be marked on the work top L (FIG. 4).

[0038] When the camera is switched on (FIG. 5), the two-dimensional image of the object P on the display 9 is immediately available thanks to the fact that the acquisition can be carried out continuously, thus allowing a “real-time” display of the object P in the word processing software. Obviously, the detecting means 10 can be configured to take a picture of the work top L for further analysis or on-screen processing.

[0039] As still visible from FIG. 5, the data D is superimposed on screen on the two-dimensional image of the object P to be marked so that if the positioning of the object P is not correct, the operator can visually check and directly on screen any misalignment of the object P with respect to the entered data D. This way, the operator can consequently move the object P on the work top L until the desired alignment between the object P and the data D is reached. In the example shown in FIG. 5, it can be seen that the object P is off-centre to the left with respect to the HELLO inscription. In this case, it will be simply enough to displace the object P, for example with one hand, to the right until the HELLO inscription is in the desired position (FIG. 6).

[0040] In an alternative version, the work top L is movable with respect to the marking head 4 and/or with respect to the camera 10. This way, in case of misalignment of the object, it is possible to center the object P automatically without an operator using their hands to move the object P. For this purpose, the apparatus 1 is provided with motorized movement means (not shown) which are linked to the work top L to move it horizontally and vertically.

[0041] In a further alternative version, it is possible to displace the data D directly on screen via software to center it on the object P. For example, in the case of misalignments, incorrect orientations, disproportions, etc., it will be possible to modify the data D on screen via software by means of a plurality of processing/settings which are needed to select the desired alignment between the data D and the object P before sending the trigger command and then make the actual marking.

[0042] After having selected the desired predefined alignment and/or orientation between the object P and the data D to be marked, the processing means 8 send a trigger signal to the marking head 4 to move it and align it over the object P to be marked.

[0043] After having reached the desired alignment between the object P and the data D to be engraved, it is possible to start the actual marking which allows the engraving of the data D on the object P in the desired position by means of the laser light beam directed towards the object P (FIGS. 7 and 8). In yet a further embodiment, it is possible to send a trigger signal to the deflection mirror 3, or any other deflection mirrors, to move it so that the object P to be marked, even if not displaced on the work top L, is still marked. In this configuration, the orientation of the object P to be marked on the work top is not relevant, as all the marking settings can be set by means of the proprietary software installed in the processing means 8.

[0044] After the desired alignment or orientation has been reached between the object P and the data D to be engraved, it is possible to start the actual marking which allows the engraving of the data D on the object P in the desired position by means of the laser light beam directed towards the object P (FIGS. 7 and 8).

[0045] It must be specified that the acquisition and processing of the image of the object P allows generating a two-dimensional signal representative of the position of the object P with respect to the data D to be engraved. In particular, the image acquired by the camera 10 is analyzed by the processing means 8, by means of an appropriate dedicated software algorithm, which superimposes the data D on the acquired image of the object P.

[0046] In one embodiment, if the acquired image of the object P contains values that do not correspond to predetermined tolerance values (e.g., unsuitable contrast and/or brightness values), it is possible to have lighting means 12 mounted on the enclosure 6, next to or around the camera 10, to illuminate the object P to be acquired as shown in FIG. 9.

[0047] Again with reference to the example shown in FIG. 9, the lighting means 12 can also be used to send optimised light beams towards the work top L for the generation of a grid intended to facilitate the positioning and orientation of the object P on the top 1. In this case, the camera 10 will not only acquire in real-time the image of the object P to be marked but will also acquire the grid to allow a fine positioning of the object P thanks to the check by the operator, directly on screen, of the position of the object P in relation to the grid.

[0048] In accordance with the embodiments shown in the examples in FIGS. 10a and 10b, the detecting means 10 can be arranged downstream of the deflection mirror 3 and inserted completely into the enclosure 6. For this purpose, the deflection mirror 3 may comprise one or more so-called beam splitters.

[0049] In the first example of FIG. 10a, the detecting means 10 are arranged along a downstream optical receiving path 11a perpendicular to the optical emission path 5 comprised between the generating device 2 and the mirror 3. Downstream of the mirror 3, parallel to the downstream optical receiving path 11a, is arranged the marking head 4 for focusing both the beam and the image to be acquired.

[0050] In the second example in FIG. 10b, the detecting means 10 are arranged along a downstream optical receiving path 11a perpendicular to the optical emission path 5 comprised between the marking head 4 and the mirror 3. In this configuration, the marking head 4 comprises directly therein, the laser beam generating device (not shown) which is deflected by the mirror 3 directly to the work top L.

[0051] The embodiments shown in the examples in FIGS. 10a and 10b allow the framing area of the detecting means 10 and the emission area of the marking head to be substantially coinciding onto the work top L.

[0052] In a further embodiment, the detecting means 10 are configured for the optical recognition of the data D (so-called “OCR”). For this purpose, the processing means 8 are provided with appropriate conversion software associated with the detecting means 10 in order to acquire, e.g., the font of data D already marked in order to make them available for later marking with the same font.

[0053] In accordance with one embodiment, the processing means 8 are connected to a server, more specifically a server of the cloud type. Additionally, the apparatus 1 can comprise a machine learning subsystem configured to interact with the processing means 8 in order to model in real time the distinctive features of the acquired images according to the type of objects P identified. In particular, the images are saved in the database and can be analysed by the machine learning subsystem in a predictive way to facilitate the recognition and/or profile of the objects P to be marked.

[0054] In a further version, the apparatus 1 can be connected to an open network, e.g. the internet, or to a closed network, e.g. the intranet. This way, several apparatuses 1 placed on the same network can share the information stored in their databases and send it to the server and/or to the machine learning subsystem to improve the performance in determining the distinctive features of the acquired images.

[0055] The processing means 8 are conveniently designed to monitor and store all the acquisitions of the object's images in such a way as to process a plurality of statistical information. This information can also be shared in the network to generate a plurality of common performances regarding the image acquisitions or the quality of the markings made. In particular, the performances may comprise, in addition to the statistical data on the types of objects P marked or to be marked, also data on the distinctive features of the objects and on the data D. Substantially, the detecting means 10 and the processing means 8 interact with each other to determine which objects P, for example, have taken more time to be recognized or have generated errors or, again, for qualitative evaluations of the type of marking carried out.

[0056] It should be noted that, when marking a very small object P, it is possible to zoom in on the object itself via software in order to capture an enlarged image on screen. This way, the data D to be engraved will be superimposed on the enlarged image of the object P while maintaining unchanged the proportions between the data D and the object P in the subsequent marking.

[0057] As can be seen from the present description, it was found that the described invention achieves the intended objects and in particular the fact is underlined that through the marking process and the related apparatus it is possible to check the correct positioning of an object to be marked on the work top in a simple, safe and fast way directly on screen.

[0058] Moreover, thanks to the particular acquisition of the images of the objects and marked data, it is possible to process the distinctive features of the objects in order to recognize them, thus improving the determination of the type of product to be marked and also ensuring high performance and effective quality control on the marking of the data.

[0059] The type of structural combinations of the apparatus as well as of the marking process are potentially infinite and obviously a technician in the field, in order to meet contingent and specific needs, can make numerous modifications and variations to the examples of embodiment described above, all of them contained within the scope of protection of the invention, as defined by the following claims.