SUCTION CUTTING CONVEYOR FOR AN AUTOMATIC BLADE CUTTING MACHINE FOR SHEET MATERIALS

Abstract

A suction cutting conveyor of an automatic blade cutting machine for sheet materials, including a plurality of cutting supports rigidly connected to a drive mechanism driven along rectilinear and curvilinear trajectories, each cutting support including a plurality of bristles each having a foot rigidly connected to a sole and a head opposite to the foot and on which a sheet material to be cut is intended to rest, the sole of each cutting support being capable of being able to elastically deform following the trajectories of the drive mechanism.

Claims

1.-13. (canceled)

14. A suction cutting conveyor of an automatic blade cutting machine for sheet material, comprising a plurality of cutting supports rigidly connected to a drive mechanism driven along rectilinear and curvilinear trajectories, each cutting support comprising a plurality of bristles each having a foot rigidly connected to a sole and a head opposite to the foot and on which a sheet material to be cut is intended to rest, wherein the sole of each cutting support is capable of being able to elastically deform following the trajectories of the drive mechanism.

15. The conveyor according to claim 14, wherein the sole of each cutting support has a plurality of parallel geometric shapes which extend along directions perpendicular to the direction of advance of the drive mechanism to allow elastic deformation following the trajectories of the drive mechanism.

16. The conveyor according to claim 15, wherein the geometric shapes of the sole of the cutting supports consist of a plurality of parallel slots.

17. The conveyor according to claim 16, wherein the slots of the sole comprise external slots protruding outward with respect to an outer surface of the sole and/or internal slots protruding inward with respect to an inner surface of the sole.

18. The conveyor according to claim 17, wherein the slots of the sole comprise an alternation of external slots and internal slots so as to give the shape of an accordion.

19. The conveyor according to claim 16, wherein the slots have a rectangular, square or rounded cross section.

20. The conveyor according to claim 14, wherein the sole of each cutting support is made of plastic material.

21. The conveyor according to claim 14, wherein each of the cutting supports is mounted by its respective sole on a transmission member of the drive mechanism by means of at least one fastening batten.

22. The conveyor according to claim 21, wherein each cutting support is mounted on the transmission member of the drive mechanism by means of at least two fastening battens, spaced longitudinally from one another.

23. The conveyor according to claim 22, wherein at least one of the two fastening battens cooperates with two adjacent cutting supports.

24. The conveyor according to claim 14, further comprising a device for cleaning the cutting supports using air.

25. The conveyor according to claim 24, wherein the air cleaning device comprises an air blowing nozzle and a dust collector.

26. An automatic blade cutting machine for sheet materials comprising a conveyor according to claim 14.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] FIG. 1 (already discussed) is seen schematically from one end of the cutting table of the prior art.

[0023] FIG. 2 shows one end of the suction cutting conveyor equipped with a plurality of cutting supports according to one embodiment of the invention.

[0024] FIG. 3 is a magnification of FIG. 2 showing more precisely the cutting supports of FIG. 2 at the discharge reeds of the cutting surface.

[0025] FIG. 4 is a magnification of FIG. 3 showing more precisely the shape of the sole of the cutting supports of FIG. 2.

[0026] FIG. 5 shows in perspective and partially the sole of the cutting supports of FIG. 2.

[0027] FIG. 6 shows schematically the deformation of a sole of a cutting support according to a variant embodiment of the invention.

DESCRIPTION OF THE EMBODIMENTS

[0028] The present invention relates to cutting supports for a suction cutting conveyor of an automatic blade cutting machine for sheet materials, such as the conveyor 10 partially shown in FIG. 2.

[0029] In known fashion, a cutting conveyor 10 of this type serves to drive the stack of sheets during the cutting operation. This cutting conveyor 10 is typically housed in a box 12 inside of which a strong vacuum is establish in order to hold immobile the sheets of material to be cut during the cutting operation.

[0030] Moreover, the cutting conveyor also served as a penetrating cutting support for the vibrating blade. It is in fact well known to make the cutting support penetrable by the blade so that during the cutting operation, the blade not only be able to pass completely through the material to be cut, but also extend downward beyond the support surface and into the bed of material providing such a surface.

[0031] The cutting conveyor 10 generally comprises a plurality of cutting supports 14. Each cutting support comprises a plurality of bristles 16, each having a foot 16a mounted on a sole 18 while forming several parallel rows of bristles, and a head 16b opposite to the foot and on which the sheet material to be cut is intended to rest (see FIG. 3).

[0032] The cutting supports 14 are mounted by means of their respective soles on a drive belt 20 driven at each end of the table by sprockets 24 centered on horizontal axles 22. The drive belt 20 is thus driven along rectilinear (between the two ends of the cutting table) and curvilinear (at each end of the cutting table, to reverse direction) trajectories.

[0033] Of course, the drive belt could be replaced by a chain, a cog belt or any other drive mechanism.

[0034] Moreover, in known fashion, transverse channels 25 are provided through the soles of the cutting supports in order to allow the suction air to pass through the soles (FIG. 4).

[0035] The cutting supports thus allow supporting the material to be cut under vacuum while still being able to be penetrated by the cutting blade. They delimit the cutting surface S of the cutting machine.

[0036] Moreover, at the longitudinal end of the cutting surface S (with respect to the direction of advance T of the cutting conveyor), the cutting table comprises a plurality of discharge reeds 26 which are generally elevated with respect to the cutting surface (see the prior art of FIG. 1). These discharge reeds 26 extend over the entire width of the cutting surface and thus allow helping with the discharge of the material out of the cutting surface.

[0037] Similarly, at the opposite longitudinal end of the cutting surface S, the cutting table also comprises a plurality of loading reeds (not shown in the figures) which are generally elevated with respect to the cutting surface and which allow helping with the loading of the material on the cutting surface.

[0038] According to the invention, the sole 18 on which are mounted the bristles 16 of the different cutting supports is capable of being able to elastically deform following the trajectories of the drive belt 20.

[0039] What is meant here by “able to elastically deform” is that the sole of the cutting supports has intrinsic characteristics which confer upon it an elastic deformation property.

[0040] Several embodiments can be contemplated to arrive at this intrinsic property of the soles of the cutting supports.

[0041] Thus, in the embodiment of FIGS. 3 to 5, the sole 18 of each cutting support has a plurality of parallel geometric shapes which extend along directions perpendicular to the direction of advance of the drive belt to allow elastic deformation following the trajectories of the drive belt.

[0042] More precisely, the geometric shapes of the sole of the cutting supports consist here of a plurality of parallel slots (or folds) which extend in a transverse direction (i.e. extending in a direction perpendicular to the direction of advance T of the cutting conveyor).

[0043] Still more precisely, the slots consist of external slots 28a protruding outward from the sole and internal slots 28b protruding toward the inside of the support.

[0044] In this embodiment, as shown in FIGS. 4 and 5, the slots 28a, 28b are arranged alternately so as to give the shape of an accordion to the sole, conferring upon it its property of ability to deform plastically.

[0045] The presence of the slots 28a, 28b in an accordion shape allows the sole of the cutting support according to the invention to elastically deform in bending in the direction of advance T of the cutting conveyor.

[0046] In this embodiment, the slots have a rectangular cross section. This cross section could alternatively be square or rounded.

[0047] Likewise the slots of the sole could be present on only one of the two faces of the sole (i.e. protruding only outward or inward from the sole).

[0048] In this embodiment, elastic deformation is made possible due to the particular shape of the sole. It thus allows, on the one hand, avoiding too great an opening between adjacent cutting supports, and on the other hand limiting, or reducing to zero, the elevation height of the discharge reeds 26 with respect to the cutting surface S.

[0049] In another embodiment of the invention shown in particular in FIG. 6, the sole 18′ of the cutting supports has intrinsic characteristics which confer upon it an elastic deformation property due to its composition.

[0050] In fact, in this embodiment, the sole 18′ is made of a plastic material capable of allowing elastic deformation following the trajectories of the drive mechanism (in FIG. 6, the sole 18′ is in a deformed state).

[0051] For example, a plastic material can be selected for example among the families of polyamides or polypropylenes.

[0052] More precisely, FIG. 6 shows a modular element 36 for cutting support as described in detail in patent application FR 20/03043, filed on 27 Mar. 2020 by the Applicant.

[0053] This modular element 36 comprises a plurality of bristles 16′ arranged according to the same identical line and the respective feet of which are rigidly connected to a sole 18′ made of a plastic material capable of allowing elastic deformation.

[0054] In this embodiment, the sole 18′ is provided with a plurality of transverse channels 25′ for the passage of suction air.

[0055] In another embodiment (not shown in the figures), the sole and the bristles of a cutting support are made of different (particularly plastic) materials.

[0056] Different features of the cutting support, regardless of its embodiment, will now be described.

[0057] In particular, different configurations are possible for the assembly of cutting supports according to the invention on the drive belt 20.

[0058] In the embodiment shown in FIGS. 2 and 3, each cutting support 14 is mounted on the drive belt 20 by means of two fastening battens 30 spaced longitudinally from one another.

[0059] Of course, other configurations can be contemplated. For example, in another embodiment (not shown in the figures), each cutting support can be mounted on the drive belt by means of three fastening battens spaced longitudinally from one another.

[0060] Still in another embodiment, each cutting support is mounted on the drive belt by means of three fastening battens; one fastening batten mounted only on the batten, and two other fastening battens mounted commonly on the cutting support and on the two adjacent cutting supports.

[0061] According to an advantageous arrangement of the invention illustrated in FIG. 2, the cutting conveyor 10 can further comprise a device for cleaning the cutting supports 14 using air.

[0062] This cleaning device comprises in particular an air blowing nozzle 32 which is mounted on the horizontal axle 22 of one of the sprockets 24 and which extends along its radius. During the rotation of the drive belt around the horizontal axle 22, the nozzle 32 is supported against the outer face of the sole of the cutting supports and blows air through it to detach dust and impurities lodged at the bottom of the sole. A collector 34 positioned facing the cutting support on the side of the head of the bristles allows recovering the dust thus dislodged.

[0063] It will be noted that the invention applies equally well to cutting conveyors using discharge and loading reeds as to those using loading and discharge rakes instead.