Optical device for checking a face of a blank

Abstract

A device (10) for optically controlling a face (13) of a blank (12) has a vacuum conveyor (20) capable of transporting the blank (12) along a path of travel (15) and which includes a conveyor belt (22) having an apertured structure of which the conveying path follows the path of travel (15) of the blank (12). A suction device (40) is suitable for pressing the blank (12) against the conveyor belt (14). An inspection device (30) inspects the face (13) of the blank (12) during its conveyance by the vacuum conveyor (20). The inspection device is located on the side opposite the vacuum conveyor (20). The suction device (40) delimits three separate successive suction sections (41, 42, 43) along the path of travel (15), including a central suction section (42) that extends opposite the inspection device (30), an upstream suction section (41) and a downstream suction section (43).

Claims

1. An optical inspection device for inspecting a face of a blank advancing past the inspection device, the optical inspection device comprising: a vacuum conveyor unit configured to transport the blank along a traffic path, the conveyor unit comprising a conveying belt having a perforated structure, a drive for moving the conveying belt, the moving conveying belt defining the traffic path of the blank, a suction device located and configured to flatten the blank against the conveying belt, and an inspection device located and configured for inspecting a first face of the blank during transportation of the blank by the vacuum conveyor unit, and the vacuum conveyor unit is located at an opposite second face of the blank from the inspection device; the suction device is configured to define three successive separate suction sections along the traffic path, applying suction to the conveying belt for holding the blank to a strip; the three further suction device sections comprising: a central suction section which extends opposite the inspection device, an entrance side suction section and an exit side suction section along the traffic path, wherein the central suction section comprises a central suction box in which a vacuum is generated and comprising at least one suction opening that leads directly to a control area, wherein the central suction section is between the entrance side suction section and the exit side suction section.

2. A device according to claim 1, further comprising, a tensioning device configured for tensioning the conveying belt, and the tensioning device being located opposite the inspection device.

3. A device according to claim 2, wherein the tensioning device comprises a pair of rollers separated along the traffic path and together configured and operable for tensioning the strip then passing the rollers.

4. A device according to claim 3, wherein the rollers are located along the central suction section.

5. A device according to claim 4, wherein the rollers define the entrance and exit positions of the central suction section.

6. A device according to claim 1, wherein the central suction section, the entrance suction section and the exit suction section each respectively comprise a box, in which the suction device vacuum is generated.

7. A device according to claim 6, further comprising a vacuum pump communicating with each box.

8. A device according to claim 7, comprising: a first vacuum pump which communicates with both of an entrance box of the entrance suction section and the central suction box of the central suction section; and a second vacuum pump which communicates with an exit box of the exit suction section.

9. A device according to claim 8, wherein less than half of an outlet section of the second vacuum pump is coupled with the central box of the central suction section.

10. A device according to claim 8, wherein at least one of the suction boxes is configured to provide an adjustable suction volume.

11. A device according to claim 7, wherein the entrance box and the exit box each comprise a perforated wall extending along the traffic path, and the conveying belt presents a perforated structure which is configured to slide against the perforated wall.

12. A processing machine equipped with an inspection device according to claim 1.

13. A folder-gluer machine equipped with an inspection device according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Examples of implementing the invention are indicated in the description illustrated by the appended figures, wherein:

(2) FIG. 1 schematically represents a folder-gluer, in which there is an inspection device according to the invention; and

(3) FIG. 2 is a longitudinal cross-sectional view of the inspection device according to the invention.

DESCRIPTION OF AN EMBODIMENT

(4) FIG. 1 shows a folder-gluer machine 100, which folds and glues blanks for manufacture of folding boxes. This folder-gluer 100 is equipped with a modular structure including, from entrance to exit, a feeder module 110 or feeder table, an alignment module 120, an embossing module 130, particularly useful for Braille, a fold pre-breaking module 140, a gluing module 150, a folding module 160, a transfer module 170 and a receiving module 180. The blanks are moved from one module to the next in the folder-gluer machine 100, in the longitudinal direction (Arrow A, FIGS. 1 and 2).

(5) The folder-gluer 100 is additionally equipped with an inspection device 10, which is directly integrated between the alignment module 120 and the embossing module 130. This inspection device 10 is configured to carry out an on-line quality inspection within the folder-gluer 100, by systematically inspecting all blanks 12 which circulate, with their printed face 13 turned towards the bottom (lower face), and their internal face 14, which is not printed, oriented towards the top (upper face).

(6) The inspection device 10 in FIG. 2 comprises a vacuum conveyor unit 20. The conveyor unit 20 comprises a conveying belt 22 or belt, which defines a closed loop which continuously transports each blank 12. Each blank 12 is transported by being held at the top on its upper face 14, which is intended to eventually constitute the internal face of a completed box, along a given traffic path 15. The conveying belt 22 is activated by the motor 23 in the form of an endless loop.

(7) The lower face 13 of the blank 12 to be inspected is usually provided with symbols, which are with reliefs, hollow and/or bumps, and/or printed with text, images, etc., and generally any types of symbols.

(8) The inspection device 10 also comprises inspection means 30 configured for inspecting the lower face 13 of each blank on the bottom, during transportation of the blank along the traffic path 15, which crosses the inspection device 10 from one end of the inspection device 10 to the other end of the inspection device 10, that is from the right to the left in FIG. 2. The inspection device 30 comprises a camera 32 and a lighting system 31, which are oriented to merge (see broken line in FIG. 2) toward the same inspection area 33. The inspection area 33, for example, is in the form of a transverse line or a transversally-extended rectangle located on the traffic path 15.

(9) Thus, during its travel through the inspection device 10, the blank is held by the conveying belt 22 along the traffic path 15, where the path follows the substantially horizontal and flat lower section of the conveying belt 22. More specifically, the blank 12 is held by suction against the lower face of the conveying belt 22, by a suction device 40 positioned above the conveying belt 22 along the traffic path 15 of the blank 12.

(10) According to the invention, the conveying belt 22 operates in three separate sections 41, 42 and 43 of the traffic path 15, which sections are successively crossed by the blank 12. These include an entrance suction section 41, followed by a central suction section 42, which extends opposite the inspection device 30, and which is followed by an exit suction section 43. In this way, during the inspection, the blank 12 is located flattened against the conveying belt 22 as the blank passes between the inspection device 30 and the conveying belt 22.

(11) Each of the sections, the central suction section 42, the entrance suction section 41 and the exit suction section 43, comprises a respective box, in which a vacuum is generated, causing a pressure drop in the direction of arrows V in FIG. 2. More specifically, an entrance box 41a, a central box 42a and an exit box 43a, are aligned according to the direction of transportation A. The boxes 41a, 42a and 43a are all located above and behind the conveying belt 22, and that strip itself is located above and behind the blank 12, which itself is located above and behind the inspection means 30, during the visual inspection of the lower face 13 of the blank printed and/or provided with relief portions.

(12) The conveying belt 22 is held flat continuously over its entire lower surface, extending along the traffic path 15 of the separate sections 41, 42 and 43 and the boxes 41a, 42a and 43a. The central suction box 42a comprises at least one suction opening at its bottom, and the opening(s) leads directly to the inspection area 33.

(13) According to a non-represented embodiment, each box 41a, 42a and 43a can communicate with a vacuum pump. This solution with an individual suction pump for the entrance box 41a, the central box 42a and the exit box 43a is not always possible, in particular for volume reasons. In addition, the presence of three vacuum pumps presents a significant cost.

(14) The vacuum conveyor unit 20 comprises a first vacuum pump 44 and a second vacuum pump 45. The first vacuum pump 44 is coupled to and communicates with the entrance suction box 41a of the entrance suction section 41. The second vacuum pump 45 is coupled to and communicates with both the central box 42a of the central suction section 42, and the exit box 43a of the bottom suction section 43. Coming out of the second vacuum pump 45, vacuum and resultant suction is shared between the central box 42, which holds a belt section 22, facing the inspection means 30, and the bottom box 43 which holds the belt section 22 located above the inspection means 30.

(15) This sharing of suction supplied by the second vacuum pump 45 can take place according to a distribution chosen according to the data and size of the inspection device 10, and in particular, the volume of the central box 42a and of the bottom box 43a. For example, less than half of the outlet section of the second vacuum pump 45 is coupled with the central box 42a of the central suction section 42. According to another possible arrangement, less than one third less of the outlet section of the second vacuum pump 45 is coupled with the central box 42a of the central suction section 42. According to a preferred arrangement represented in FIG. 2, about one third of the outlet section of the second vacuum pump 45 is coupled with the central box 42a of the central suction section 42. In this case, the central box 42a and the bottom box 43a respectively represent between 5% and 95% of the total volume formed by the central box 42a and the exit box 43a.

(16) According to a beneficial arrangement, at least one of the entrance box 41a, the central box 42a and the exit box 43a provides an adjustable suction volume. According to a preferred arrangement, as represented in FIG. 2, the entrance box 41a and the exit box 43a present a volume that can be modified. Such modularity is achieved, for example, by dividing the entrance box 41a and the exit box 43a, with internal walls and fitting the entrance box 41a and the exit box 43a with a mobile shutter at the air entrance of each box, which can be opened or closed as desired. As an alternative, as in FIG. 2, these are lateral panels of the entrance box 41a (exit box 43a), which extend in the direction of travel A, which are slidable in order to be able to widen or shrink the width of the entrance box 41a (exit box 43a). Such adjustment of the air entry into each box allows use of the amount of suction needed for holding the blank to the conveying belt along the traffic path.

(17) The entrance box 41a and the exit box 43a each comprise a lower perforated wall, extending along the traffic path 15. The conveying belt 22 comprises a perforated structure, which is able to slide between each perforated wall. The belt 22 recovers, at least partially, the width of each perforated wall of the entrance box 41a and the exit box 43a. In a preferred arrangement, the belt 22 substantially completely recovers the width of each perforated wall of the entrance box 41a and the exit box 43a. The outlet section of the central box 42a is of a low amplitude, and is not equipped with a perforated wall.

(18) The vacuum conveyor unit 20 comprises tensioning means 50 for the conveying belt 22, ensuring local rigidity of the belt 22 especially where the blank is being inspected. These tensioning means 50 comprise a pair of rollers 51 and 52, separated along the traffic path 15. More specifically, each upstream, entrance side roller 51 and each downstream, exit side roller 52 is positioned above the conveying belt 22. The suction generated by the vacuum in the central box 42a will flatten the belt 22 on and against these fixed rollers 51 and 52, which produces a flat inspection surface. The opening between rollers is short in length which increases the speed of the air drawn in between the rollers and holds the blank steady during inspection.

(19) Thus, the rollers 51 and 52 are located along the central suction section 42. Moreover, preferably, the rollers 51 and 52 respectively define the entrance position and the exit position of the central suction section 43. The outlet of the central box 43a extends along the direction of transportation A between the rollers 51 and 52. For example, the rollers 51 and 52 are both spaced out along the direction of progression A at a distance of around 30 mm, and preferably between 20 mm and 50 mm.

(20) This invention is not limited to the embodiments described and illustrated. Numerous modifications can be made, without moving away from the framework defined by the scope of the set of claims.