[0001] This invention is in the technical sector relating to cardboard working.
[0002] In particular, this invention relates to a machine for working cardboard and similar
materials.
[0003] Working cardboard, whether it is in slabs, sheets or strips, corrugated or single-layer,
basically involves making cuts, creases and the like.
[0004] There are prior art cardboard working machines which are equipped with disk-type,
blade-type or even punch elements for making cuts, creases, intermittent pre-breaking
line cuts, both longitudinal and transversal.
[0005] In order to carry out said working effectively, the prior art machines are equipped
with suitable opposing means located on the opposite side of the cardboard to be worked
to the disk-type elements for cutting or punching.
[0006] These opposing means carry out the necessary function of preventing the cardboard
from deforming or bending excessively when it is subjected to the forces with components
which are perpendicular to it applied by the cutting elements.
[0007] In the prior art solutions the opposing means comprise steel rollers positioned opposite
the disk-type or roller-type cutting or creasing elements. An alternative solution
to the rollers uses flat opposing elements, such as plates and the like.
[0008] Both types of opposing means mentioned above, although effective are not without
disadvantages.
[0009] Whilst on one hand the plate means generate unwanted friction which opposes rapid
cardboard feed, the roller means, in order to overcome said disadvantage must be made
to rotate at the same speed of rotation as the cutting elements, with consequent complications
due to the complexity of the plant, both as regards their motorisation and for controlling
their speed.
[0010] To overcome the disadvantages of the prior art, the Applicant created a new solution
consisting of a machine for working cardboard in which the opposing means are brushes
which form respective flat surfaces on which the pieces of cardboard can slide. Said
solution forms the subject-matter of industrial invention patent application number
BO2006A000381.
[0011] Even that solution, although solving most of the problems associated with the use
of pre-existing means, is not without disadvantages.
[0012] In particular, a first disadvantage is the fact that the bristles forming the brushes,
extending longitudinally so that they are perpendicular to the surface for cardboard
feed along the machine, may cause the cardboard being fed to jam if the cardboard
has sharp cuts which are transversal to the feed direction.
[0013] A second disadvantage linked to use of brush-type means of the known type is the
high resistance to cardboard feed caused by the bristles distributed along the feed
surface.
[0014] This invention therefore has for an aim to provide a machine for working cardboard
and similar materials which is free of the disadvantages described above and which
at the same time has a simple structure, is easy to produce and operates effectively.
[0015] The technical features of the invention according to the aforementioned aim may be
easily inferred from the content of the appended claims, especially claim 1, and preferably
any of the claims that depend, either directly or indirectly, on claim 1.
[0016] The advantages of the invention are more apparent from the detailed description which
follows, with reference to the accompanying drawings which illustrate a preferred
embodiment of the invention provided merely by way of example without restricting
the scope of the inventive concept, and in which:
- Figure 1 is a schematic side elevation view of a first embodiment of the machine according
to this invention;
- Figure 2 is a cross-section according to the line II - II of Figure 1, with some parts
cut away for clarity;
- Figure 3 is a cross-section according to the line III - III of Figure 1, with some
parts cut away for clarity;
- Figures 4 and 5 show, in respective side elevation views, an apparatus belonging to
the machine in the previous figures, in two different operating steps;
- Figure 6 is a schematic side elevation view of a second embodiment of the machine
according to this invention;
- Figure 7 is a schematic perspective top view of a detail of the machines in the previous
figures;
- Figure 8 is a schematic perspective top view of a preferred embodiment of the detail
of Figure 7;
- Figure 9 is an exploded schematic view of the detail of Figure 8.
[0017] With reference to the accompanying drawings from 1 to 5, the numeral 1 denotes as
a whole a preferred but non-limiting embodiment of a machine for working cardboard
and similar materials.
[0018] As shown in Figure 1, the machine 1 comprises a frame 2 consisting of a plurality
of uprights and crosspieces, not indicated in detail, and resting on the ground with
a plurality of feet 3.
[0019] The machine 1 has a zone 4 for insertion of a piece of cardboard C, visible in Figures
2 and 3, according to a predetermined direction indicated by the arrow F, towards
a series of operating elements designed to make cuts, creases or for other working
on the cardboard, the operating elements being described in detail below.
[0020] Again with reference to Figure 1, close to the insertion zone 4, the machine 1 comprises
means 5 for feeding the cardboard comprising two rollers 6, 7 opposite one another,
of the substantially known type and not described in detail.
[0021] Downstream of the zone 4 according to the direction of the arrow F, the machine 1
has a first operating unit 8 for cutting and creasing the pieces of cardboard transversally,
where the term transversally refers to a direction which is substantially at a right
angle to the cardboard C feed direction in the machine 1, the feed direction being
indicated by the arrow F in Figure 1.
[0022] As Figure 2 also shows, the first operating unit 8 comprises an operating element
9 and a roller 10 for supporting and opposing the cardboard C.
[0023] The operating element 9 advantageously comprises a disk-type cutting device 11, and
two creasing devices 12, 13, respectively continuous and intermittent.
[0024] The three devices 11, 12, 13 are mounted on a carriage 14 which can move by sliding,
in the substantially known way, on a respective guide 15 extending transversally to
the cardboard C feed direction F.
[0025] The devices 11, 12, 13 can be operated independently of each other using respective
actuators, advantageously of the pneumatic type, which bring each of them from a respective
first, raised non-operating position to a second, lowered operating position in which
it engages with the cardboard C.
[0026] The supporting and opposing roller 10 rotates about a respective axis of rotation
10a which is transversal to the feed direction F.
[0027] Also with reference to Figure 1, downstream of the first operating unit 8 according
to the direction of the arrow F, the machine 1 has a second operating unit 16 for
cutting and creasing the pieces of cardboard C longitudinally, where the term longitudinally
refers to a direction which is substantially parallel with the cardboard C feed direction
F in the machine 1.
[0028] The second operating unit 16 comprises two operating elements 17, 18 and two respective
rollers 19, 20 for supporting and opposing the cardboard C.
[0029] As is also illustrated in Figure 3, the operating element 17 comprises two disk-type
cutting devices 21 each designed to make longitudinal cuts in the cardboard C by operating
in conjunction with a respective supporting and opposing roller 19 below. As shown
in Figures 4 and 5, the device 21 can be operated using respective actuators 22 between
a first, raised non-operating position, visible in Figure 4, in which the cutting
disk 23 does not engage with the cardboard C, and a second, lowered operating position,
visible in Figure 5, in which the cutting disk 23 engages with the cardboard C.
[0030] The supporting and opposing roller 19 rotates about a respective axis of rotation
19a which is transversal to the feed direction F.
[0031] The operating element 18 comprises a creasing device 24 designed to make longitudinal
creases in the cardboard C by operating in conjunction with a respective supporting
and opposing roller 20 below. Like the devices 11, 12, 13, 21 described above, the
creasing device 24 can move between two respective positions, non-operating and operating.
[0032] The supporting and opposing roller 20 also rotates about a respective axis of rotation
20a which is transversal to the feed direction F.
[0033] Each of the supporting and opposing rollers 10, 19, 20, a portion of which is illustrated
in Figure 7, is covered by a brush-type surface 25 whose bristles, or thread-like
segments, are designed to support the cardboard C and to offer suitable opposition
to the operating element 9, 17, 18 during operation of any of its devices 11, 12,
13, 21, 24.
[0034] As illustrated in Figures 2 to 5, the rollers 10, 19, 20 are opposite respective
operating elements 9, 17, 18, which are on the opposite side of the cardboard C.
[0035] In their action supporting the cardboard C and opposing the operating elements 9,
17, 18, the tips of the bristles forming the surface 25 react with both the weight
of the cardboard C and the force applied to the cardboard C by the cutting and creasing
devices.
[0036] Preferably, in forming the brush-type surface 25, the bristles are gathered in groups
distributed in a regular fashion on the outer cylindrical face of the rollers 10,
19, 20.
[0037] Advantageously, according to the preferred non-limiting embodiment illustrated in
Figures 8 and 9, the bristles, or thread-like segments, are arranged one after another
and are fixed on a support 30 which extends longitudinally, the support 30 being wound
in a spiral about the roller 10, 19, 20 to form the brush-type surface 25.
[0038] As Figures 8 and 9 show, the support 30 is a profile with a U-shaped cross-section.
[0039] The profile forming the support 30 is advantageously a metal profile, in particular
made of steel or aluminium.
[0040] Advantageously, the lateral walls of the support 30 are at least partly bent inwards
towards each other to form a U shape so as to mechanically hold the bristles or thread-like
segments.
[0041] Advantageously, thanks to its concave U shape, the support 30 accommodates an adhesive
material able to secure the bristles or thread-like segments.
[0042] As already indicated, during production the profile forming the support 30 is wound
in a spiral about the roller 10, 19, 20 so that it adheres to the outer surface of
the latter and forms the above-mentioned brush-type surface 25.
[0043] Advantageously, the support 30 wound in a spiral is fixed to the roller 10, 19, 20
by suitable fixing means.
[0044] In particular, the fixing means, not illustrated, comprise welding spots when possible
depending on the materials used. Alternatively, the support 30 may be fixed to the
roller 10, 19, 20 by forcing the former onto the latter.
[0045] The support 30 which can be wound in a spiral about the roller 10, 19, 20, has the
advantage of being easy to adapt to any different roller diameter and easily and rapidly
substituted in the event of wear or deterioration of the bristles or thread-like segments.
[0046] The bristles are advantageously made of nylon or another synthetic material or even
of metal, depending on the material to be supported and on other operating parameters
to be selected by the machine user.
[0047] In the embodiment of the machine 1 illustrated in Figures 1 to 5, the supporting
and opposing rollers 10, 19, 20 of all of the operating units 8, 16, transversal and
longitudinal, are shown as the type covered by a brush-type surface 25, although said
representation does not limit the scope of the invention in any way.
[0048] In other words, without departing from the protective scope of this invention, there
are machines which are also equipped with only one roller covered with the brush-type
surface 25, whilst the other rollers are of conventional types such as solid rubber
rollers or steel rollers.
[0049] The rollers 10, 19, 20 advantageously have motor means, not illustrated, which are
designed to make the roller 10, 19, 20 rotate in such a way that it is synchronised
with cardboard C feed.
[0050] Advantageously, rotation of the rollers 10, 19, 20 contributes to cardboard C feed
in the direction F.
[0051] Figures 2 and 3 show, by way of example, at one longitudinal end of the roller 10,
19, a pulley 26 designed to engage with respective elements, not illustrated, which
are designed to pull the roller 10, 19 so that it rotates about its axis 10a, 19a.
[0052] Alternatively, the roller 10, 19 is positioned idly on its axis of rotation 10a,
19a.
[0053] According to an alternative embodiment, not illustrated, the machine according to
this invention comprises a belt conveyor, in which the belt is covered by a brush-type
surface. Said embodiment, like the roller, allows the cardboard C to be supported
during operation of the operating elements.
[0054] The belt conveyor may also be equipped with a motor or may be idle.
[0055] The rollers 10, 19, 20 together with the belt conveyors referred to but not illustrated,
covered by brush-type surfaces 25, form, for the machine 1, respective movable elements
for supporting and opposing the cardboard C.
[0056] Figure 6 shows an alternative embodiment of the machine 1 described above. For brevity
the features of the machine shared by that described above are not described.
[0057] According to the embodiment illustrated in Figure 6, the machine 1 according to this
invention advantageously comprises means 27 for cutting up cardboard C waste pieces
obtained after cuts were made in the cardboard by the cutting devices 21. Downstream
of the cutting means 27, the machine 1 comprises means 28 for unloading the cut up
waste pieces.
[0058] In practice, the use of cardboard C supporting and opposing means according to this
invention advantageously makes it possible to prevent the cardboard C from jamming
as it is fed along inside the machine 1.
[0059] Another advantage linked to the use of the movable supporting and opposing means
according to this invention is that of limiting the friction in the cardboard C sliding.
[0060] A further advantage linked to use of the rollers 10, 19, 20 having a brush-type surface
25 is the fact that they are very light and economical compared with conventional
solid rubber or steel rollers.
[0061] The invention described above is susceptible of industrial application and may be
modified and adapted in several ways without thereby departing from the scope of the
inventive concept. Moreover, all details of the invention may be substituted by technically
equivalent elements.
1. A machine for working cardboard (C) and similar materials, comprising
- a supporting frame (2),
- means (5) for feeding the cardboard (C) in a predetermined feed direction (F),
- operating elements (9, 17, 18) designed to make cuts, creases and/or for other working
on the cardboard (C),
- cardboard (C) supporting and opposing means, positioned on the opposite side of
the cardboard (C) to the operating elements (9, 17, 18) so as to oppose the force
applied to the cardboard (C) by the operating elements (9, 17, 18), the machine being
characterised in that the supporting and opposing means comprise at least one movable element which is
at least partly covered by a brush-type surface (25) and designed to support the cardboard
(C) during operation of the operating elements (9, 17, 18).
2. The machine according to claim 1, characterised in that the movable element comprises a roller (10, 19, 20) able to rotate about a respective
axis of rotation (10a, 19a, 20a) which is transversal relative to the cardboard (C)
predetermined longitudinal direction of feed (F), the brush-type surface (25) at least
partly covering the roller (10, 19, 20).
3. The machine according to claim 1, characterised in that the movable element comprises a belt conveyor, the brush-type surface (25) at least
partly covering the belt of the conveyor.
4. The machine according to any of the claims from 1 to 3, characterised in that the brush-type surface (25) consists of a plurality of thread-like segments.
5. The machine according to claim 4, characterised in that the thread-like segments are gathered in groups.
6. The machine according to claim 4 or 5,
characterised in that the thread-like segments are arranged one after another and are fixed on a support
(30) which extends longitudinally, said longitudinal support being wound in a spiral
about the roller (10, 19, 20).
7. The machine according to claim 6, characterised in that the longitudinal support (30) is made of metal material.
8. The machine according to claim 6 or 7, characterised in that the support (30) has a U-shaped cross-section.
9. The machine according to any of the claims from 1 to 8, characterised in that it comprises motor means designed to move the movable element in such a way that
it is synchronised with cardboard (C) feed.
10. The machine according to any of the claims from 1 to 9, characterised in that it comprises means (27) for cutting up cardboard (C) waste pieces obtained after
cuts were made in the cardboard.
11. The machine according to claim 10, characterised in that it comprises means (28) for unloading the cut up waste pieces.