[0001] The invention relates to unwinding apparatuses that are associable to wrapping machines
for dispensing and wrapping a film made of cold-stretchable plastic material around
a load formed by a product or a plurality of products, which are arranged on a platform
or pallet. In particular, the invention relates to an unwinding apparatus that is
installable on a mobile or so-called self-propelled wrapping machine.
[0002] The self-propelled wrapping machines, also called self-propelled wrapping robots,
are machines that are generally used for wrapping loads of variable shapes and sizes
and in limited productions, typically used in production environments or rooms in
which the fixed or static wrapping machines cannot be used.
[0003] The self-propelled wrapping machines include a carriage or cart provided with powered
rear wheels and a front guiding device, which comprises a couple of steering wheels
that are guided by a steering. The steering can be driven through a guiding bar by
an operator for manually leading the machine in a manoeuvring configuration, or by
a feeler element suitable to follow the external profile of the load in an operating
configuration, in which the self-propelled machine automatically rotates around the
load for wrapping the latter with the film.
[0004] The cart supports a vertical column or upright along which an unwinding or dispensing
apparatus is mobile that houses a reel of plastic film and a plurality of rollers
for unwinding and pre-stretching the film. More precisely, the unwind apparatus is
generally provided with a couple of pre-stretching rollers arranged for unwinding
from the reel and pre-stretching or elongating the film, and one or more return rollers
for deflecting the film toward the load.
[0005] The combination of the reciprocating linear movement of the unwinding apparatus along
the vertical upright and the rotation of the self-propelled machine around the load
allows wrapping the film around the latter so as to form a series of helically interlaced
bands or strips. The plastic film is wound so as to completely wrap all the sides
of the load.
[0006] In order to stabilize the load when the latter is arranged on a pallet, it is also
necessary to wrap the film around a base of the load itself and around an upper portion
of the pallet. Without this precaution, the load, especially if formed by a group
of separated products, may dangerously shift with respect to the pallet during wrapping
and/or a subsequent transport.
[0007] In order to ensure a suitable tension to the film and guarantee a greater resistance
thereof to the tensile forces that are originated, for example, by displacements or
movements of the load, it is necessary to transversely roll up or narrow, completely
or partially, the film so as to reduce a band or strip height or width thereof in
order to obtain a narrowed band or a rolled or roped portion of the film, to be tightly
wound around the load and around the pallet. Such narrowed band, which is obtained
by progressively wrapping or rolling on itself a longitudinal edge of the film transversely
to the unwinding direction (so-called film roping), allows in fact to obtain a greater
wrapping force and a shorter elastic elongation with respect to the film with full
strip width. The roped film is also used for better stabilizing and reinforcing parts
of the load, which are more unstable.
[0008] For this purpose, there are known different devices or mechanisms that however are
employed, because their overall dimensions, only on static wrapping machines, for
example machines with rotating platform, or machines with rotating ring or arm. Furthermore,
such film narrowing devices do not allow controlling precisely and/or with feedback
loop the amount of the transversal narrowing or roping carried out on the exiting
film during the operating cycle, and in particular to vary the strip width of the
film also during the load wrapping. Typically, such devices only allow folding completely
the film in the form of rope or reducing the strip width of the film up to a value
that is predefined and set at the beginning of the wrapping cycle.
[0009] An object of the invention is to improve the known unwinding apparatuses associable
with self-propelled wrapping machines for wrapping a load with a film made of cold
stretchable plastic material.
[0010] Another object is to provide an unwinding apparatus for self-propelled wrapping machines
that allows to vary in a simple, fast and effective manner a band or strip height
or width of the plastic film during the wrapping thereof around the load, in particular
for carrying out a rolled portion or rope on said film.
[0011] A further object is to provide an unwinding apparatus that allows controlling in
real time and/or with a feedback loop, in a precise and accurate manner the strip
width of the film during the whole wrapping cycle.
[0012] Another further object is to provide an unwinding apparatus having simple and economical
construction and efficient and reliable operation.
[0013] These objects and others are achieved by an unwinding apparatus according to one
or more of the following claims.
[0014] The invention will be better understood and implemented with reference to the attached
drawings, which illustrate some exemplifying and not limitative embodiments thereof,
in which:
- figure 1 is a perspective view of the unwinding apparatus of the invention associated
to a self-propelled wrapping machine in an operating configuration;
- figure 2 is an enlarged perspective view of the unwinding apparatus of figure 1 that
illustrates a folding element of the film in two different operating positions;
- figure 3 is a perspective view of the unwinding apparatus of figure 2 wherein some
parts are removed for better illustrating the folding element of the film and related
driving means;
- figure 4 is an enlarged perspective view of the folding element and of the driving
means of figure 3;
- figure 5 is a perspective view of a variant of the unwinding apparatus of the invention;
- figure 6 is an enlarged perspective view of the folding element and driving means
of the apparatus of figure 5.
[0015] With reference to figures 1 to 4, there is illustrated an unwinding apparatus 1 that
is associable to a self-propelled wrapping machine 100 mobile around a load (not shown)
for wrapping the latter with a film 50 made of stretchable plastic material.
[0016] The self-propelled wrapping machine 100 is of known type and substantially comprises
a main cart 101 that is provided with powered rear wheels 102 and with a front guiding
device 103 having steering wheels that are guided by a steering 104. A vertical upright
105, along which the unwinding apparatus is slidably fixed, is fixed to the main cart
101. The apparatus 1 comprises frame means 2 for supporting a reel 60 of film 50,
first roller means 11, 12, 13 for unwinding and pre-stretching the film 50 and second
roller means 14 for deflecting toward the load the film 50 exiting the first roller
means 11, 12, 13. The first roller means 11, 12, 13 comprise a first pre-stretching
roller 11 and a second pre-stretching roller 12 rotated around respective longitudinal
axes by a motor group 16, of known type and not described in detail. The pre-stretching
rollers are moved with different rotation speeds so as to stretch or elongate the
plastic film 50 during the reel 60 unwinding. The reel 6 is mounted free to rotate
on a supporting reel-carrier 17. A return roller 13 of the first roller means directs
the film 50 unwound from the reel to the first pre-stretching roller 11 (slow roller)
arranged upstream of the second pre-stretching roller 12 (fast roller) arranged downstream
with respect to the unwinding direction of film. The second roller means comprise
a deflecting roller 14 that deflects and directs the film 50 exiting the unwinding
apparatus 1 toward the load.
[0017] The apparatus 1 also comprises at least one folding element 3 and driving means 10
for moving the folding element 3 so that the latter intercepts and abuts a first longitudinal
edge 50a of the film 50 and pushes said first longitudinal edge towards an opposite
second longitudinal edge 50b of said film 50 so as to reduce a strip width L of film
50 exiting the unwinding apparatus 1. The folding element 3 is interposed between
the first roller means 11, 12, 13 and the second roller means 14, in particular is
positioned adjacent to the latter ones.
[0018] Driving means 10 comprise moving means 4 that support and move the folding element
3 along a narrowing trajectory R transversal to an unwinding direction T of the film
50 and that are driven by electric actuator means 5.
[0019] The apparatus 1 further comprises a control unit 20, which is connected to driving
means 10 and arranged for controlling and adjusting a displacement and/or a moving
direction of the moving means 4, and first sensor means 30 that are coupled to the
moving means 4 for continuously detecting and measuring at least a displacement of
said moving means 4 and sending a related control signal to the control unit 20 so
as to allow the control unit to control and adjust, during wrapping of the load, a
position of folding element 3 along the narrowing direction R and thus a strip width
L of film 50.
[0020] The first sensor means 30 comprise, for example, an angular position transducer that
is coupled and rotated by the moving means 4.
[0021] In the illustrated embodiment, the angular position transducer 30 includes a phonic
wheel 31 connected to the moving means 4, and a proximity sensor 32, in particular
of inductive or capacitive or magnetic or optical type, which is associated to the
phonic wheel 31 and is connected to the control unit 20. As known, the proximity sensor
32 detects the rotation of the phonic wheel 31 and sends related signals to the control
unit 20 that is capable to calculate and establish position and angular speed of the
phonic wheel 31 and therefore of the moving means 4 connected thereto.
[0022] In the embodiment shown in figures 1 to 4, the moving means 4 comprise screw nut
means 41, which support the folding element 3, and screw means 42, which are coupled
to, and support, said screw nut means 41. The screw means 42 are rotatably fixed to
the frame means 2 and rotated by the electric actuator means 5 so as to move linearly
the screw nut means 41, and then the folding element 3, along the narrowing trajectory
R that, in this case, is a trajectory substantially linear and orthogonal to the unwinding
direction T of film 50.
[0023] The screw means 42 comprise, for example, a screw with multiple threads whose ends
are rotatably fixed to the frame means 2 by fixing flanges 43. The screw nut means
comprise a screw nut or female screw 41, which supports the folding element 3 by means
of a supporting plate 44. More precisely, the moving means 4 also comprise also an
anti-rotation rod 45, which is parallel and adjacent to the screw 42 that slidably
supports the supporting plate 44. More precisely, the supporting plate 44 comprises
a first side portion that is fixed to the screw nut 41, a second central portion that
rotatably supports the folding element 3 and a third side portion that is provided
with a bush 46 slidably mounted on the rod 45. The rod 45 prevents rotation of screw
nut 41, and thus of the folding element 3, around the screw 42 during the rotation
thereof.
[0024] Motion transmission means 6 are provided for connecting the electric actuator means
5 to the screw means 41. In the illustrated embodiment, the electric actuator means
comprise a rotary electric motor 5, for example a DC electric motor with integrated
gearbox, and the motion transmission means 6 comprise a pinion of the motor 5, a toothed
belt or chain 27 driven by the pinion and driving a gear wheel 18 fixed to the screw
42.
[0025] The folding element 3 comprises a respective roll, which is rotatably fixed to the
supporting plate 44, free to rotate around a respective axis and provided with a groove
3a, in particular having a conical shape, suitable to abut and receive the first longitudinal
edge 50a so as to roll the latter by pushing it toward the second longitudinal edge
50b and carry out a rolled portion 50c of film or a rope, as is better explained in
the following description.
[0026] In this embodiment of the moving means 4, the angular position transducer of first
sensor means 30 is coupled to the screw means 41. More precisely, the phonic wheel
31 of the angular position transducer 30 is fixed to an end of screw means 41 and
is rotatable therewith around a respective longitudinal axis; the proximity sensor
32 of the angular position transducer 30, which is associated to the phonic wheel
31 and connected to control unit 20, is fixed by means of a supporting bracket 33
to the frame means 2.
[0027] The control unit 20 comprises, for example, an electronic board suitable to manage
the operation of electric motor 5, in particular the driving and the rotation direction
and/or the speed and/or the acceleration, according to signals received by the angular
position transducer 30 so as to allow controlling and adjusting the strip width L
of film 50 during the whole wrapping cycle of the load.
[0028] Thanks to the first sensors 30 it is in fact possible to measure and control accurately
the displacement of moving means 4, i.e. the rotation of screw means 41 and thus the
position of folding element 3 along the narrowing direction R. The position of folding
element 3 defines the amount of the narrowing of film 50.
[0029] Therefore, it is possible during the whole wrapping cycle to correct or adjust the
strip width or to vary in a defined manner the values of the strip width of film according
to the different steps of the wrapping cycle.
[0030] In fact, the control unit 20 is connected to interface means of the self-propelled
wrapping machine 100, through which it is possible to enter operating data, in particular
displacement or displacements of the folding element 3 and/or the value or values
of the strip width L of film 50 that it is desired to obtain during the various steps
of the wrapping cycle.
[0031] Second sensor means 21, 23 are fixed, for example, to the frame means 2 for detecting
the stroke end positions of moving means 4, in particular of screw nut 41.
[0032] The sensor means 21, 23 include, for example, a first upper electromechanical end
stop 21 and a second lower electromechanical end stop 23, both connected to the control
unit 20 for sending thereto respective stop signals of the driving means 10, i.e.
of the electric motor 5.
[0033] The electric motor 5 is provided with a brake 22 suitable to precisely block the
motor, and thus the screw nut 41 in the desired position of the folding element 3,
which can be set by the interface means of the machine.
[0034] The operation of the unwinding apparatus 1 of the invention that is mounted on the
self-propelled wrapping machine 100 provides, during the wrapping cycle of the load,
one or more steps in which the folding element 3 is moved by the driving means 10
for reducing the strip width of film 50 exiting the apparatus 1 and in particular
for carrying out on the first longitudinal edge 50a of film 50 a rope or rolled portion
50c, i.e. for partially or even completely roping the film 50 in order to impart thereto
a greater resistance to tensile stress and a lower deformability, typically in order
to stabilize the load and/or for fixing the latter to the underlying pallet more firmly.
[0035] The amount of reduction od the strip widht L of the film 50 and/or of the so-called
roping can be set by the operator according to the load to be wrapped through the
operator interface by acting on the control unit 20. On the basis of the strip width
L or of the different values of the strip width L required during the various steps
of the wrapping cycle, the control unit 20 determines and controls the stroke of the
folding element 3 through the moving means 4 up to the required positions.
[0036] For example, thanks to the unwinding apparatus 1 of the invention it is possible
to obtain a first value of the strip width of film during the wrapping of a base portion
of the load, a second strip width during the wrapping of a top portion of the load
and a third strip width for the end wrapping turns.
[0037] It should be noted that, thanks to the first sensor means 3, it is possible to position
very accurately and precisely the moving means 4, i.e. the screw nut 41, and then
the folding element 3 that is connected thereto along the narrowing direction R so
as to obtain values of the strip width L that are also precise and accurate.
[0038] Therefore, thanks to the unwinding apparatus 1 of the invention, mountable on a self-propelled
wrapping machine, it is possible during the whole wrapping cycle of a load with the
plastic film to vary, in particular to reduce, the strip width of the film in a simple,
fast and accurate manner. More precisely, according to structure and composition of
the load and of the wrapping step, the apparatus allows making a narrowed band of
film or a band that is provided with a rolled portion so as to form a rope to be tightly
wound around the load and the pallet. Such narrowed band, which is obtained by progressively
wounding or rolling on itself a longitudinal edge of the film transversely to the
unwinding direction, allows obtaining a greater wrapping force with respect to the
film with full-width band. The film that is rolled in rope or in a narrowed band is
also used for better stabilizing and reinforce the parts of the load, which are more
unstable.
[0039] The driving means 10, provided with electric actuators 5, further allow to precisely
position the folding element 3 and then to obtain a desired and precise reduction
of the width L of film. The value of the strip width of film can be easily entered
through the user interface of the machine and processed by the control unit 20 for
controlling the electric actuator means 5 and the moving means 4 of the folding element
3 in cooperation with the first sensors 30, which send signals about the position
of said moving means 4 and of the folding element 3 in real-time and with a closed
loop or feedback control process.
[0040] In a version of the unwinding apparatus 1 of the invention that is not illustrated
in the figures, there is provided a further folding element 3 movable by driving means
10 along the narrowing trajectory R in a direction that is opposite to the moving
direction of the folding element 3 so as to intercept and abut the second longitudinal
edge 50b and push the second longitudinal edge towards the first longitudinal edge
50a so as to reduce, in cooperation with the folding element 3, the strip width L
of film 50 exiting the apparatus 1. In this case, the further folding element is fixed
through a further supporting plate to a further screw nut that is coupled to the screw
means 42 so as to be linearly moved thereby in a direction that is opposite to the
direction of the folding element 3. In such a manner, the two folding elements that
mutually approach or move away allow reducing and/or rolling the film 50, for example
creating two distinct and opposite ropes of film.
[0041] Alternatively, the further folding element can be driven by respective and separated
further moving means.
[0042] With reference to figures 5 and 6 there is illustrated a variant of the unwinding
apparatus of the invention that differs from the previously described embodiment for
the moving means 104 that includes a carriage 144 supporting the folding element 3,
a guide 145, which slidably supports the carriage 144 along the narrowing trajectory
R, and operating means 141, which are moved by the electric actuator means 5 and are
connected to the carriage 144 so as to move the latter along the narrowing trajectory
R.
[0043] The guide 145 comprises an elongated prismatic element with which the carriage 144
slidably engages that is provided with an elongated and shaped bracket 146 to which
the folding element 3 is fixed idle.
[0044] The first sensor means comprise an angular position transducer 130 that is coupled
in this case to the operating means 141. In particular, the phonic wheel 131 of the
angular position transducer 130 is connected to the operating means 141, rotatable
around a respective axis, while the proximity sensor 132 of the angular position transducer
130, which is associated to the phonic wheel 131 and connected to the control unit
20, is fixed to the frame means 2 of the apparatus 1.
[0045] The operating means comprise a closed loop belt 141 that is wound around moving pulleys,
of known type and not illustrated, which are positioned at opposite ends 145a, 145b
of the guide 145, and to which the carriage 144 is fixed. From one of the ends of
the guide 145, for example from an upper end 145a, a shaft protrudes which drives
the moving pulley of the belt 141 and on which the phonic wheel 131 is mounted. The
motion transmission means 106, which connect the electric actuator means 5 to the
moving means 104, comprise a bevel gears with conical gears that connects the driving
shaft of the operating means 141 to a respective motor shaft of a rotary electric
motor of the electric actuator means 5. The rotary electric motor is, for example,
of self-braked type.
[0046] The second sensor means 121, 123 are fixed to the opposite ends 145a, 145b of the
guide 145 for detecting the stroke end positions of the moving means 104, in particular
of the carriage 144. The second sensor means include, for example, a first upper inductive
sensor 121 and a second lower inductive sensor 123, both connected to the control
unit 20 for sending thereto respective stop signals of the driving means 10, i.e.
of the electric motor 5. In this variant of the unwinding apparatus 1, the first roller
means comprise the couple of pre-stretching rollers 11, 12 rotated around respective
longitudinal axes by the motor group 16 and a further return roller 15 that directs
the film 50 exiting the second pre-stretching roller 12 (fast roller) towards the
deflecting roller 14 of second roller means that deflects the film toward the load.
The folding element 3 is interposed between the further return roller 15 and the deflecting
roller 14.
[0047] The operation of this variant of the unwinding apparatus 1 of the invention is substantially
similar to the operation of the embodiment shown in figures 1 to 4 and previously
described.
[0048] In another variant of the apparatus that is not shown, the moving means comprise
a slide fixed to and supporting the folding element 3 and the electric actuator means
include a linear electric motor suitable to support and move said slide along the
narrowing trajectory R. The first sensor means comprise in this case a linear position
transducer, of known type, that is connected to the slide.
[0049] Still alternatively, the moving means may comprise a lever having a first end rotatably
fixed to the frame means 2 and a second end that rotatably supports the folding element
3. The lever is rotated by the electric actuator means so as to move the folding element
3 along the narrowing trajectory R having arched shape.
1. Unwinding apparatus (1) associable to a self-propelled wrapping machine (100) mobile
around a load for wrapping the load with a plastic material film (50), comprising:
- frame means (2) for supporting a reel (60) of said film (50);
- roller means (11, 12, 13, 14) for unwinding and pre-stretching said film (50);
- at least a folding element (3) mobile along a narrowing trajectory (R) for abutting
a first longitudinal edge (50a) of said film (50) and pushing said first longitudinal
edge towards a second longitudinal edge (50b) of said film (50) so as to reduce a
strip width (L) of said film (50) exiting said apparatus (1);
- driving means (10) for moving said folding element (3) and comprising moving means
(4; 104) supporting said folding element (3) and mobile along said narrowing trajectory
(R), transversely to an unwinding direction (T) of said film (50), and electric actuator
means (5) connected to, and driving, said moving means (4; 104);
- a control unit (20) that is connected to said driving means (10) for controlling
and adjusting a displacement and/or a moving direction of said moving means (4; 104);
characterized in that it comprises first sensor means (30; 130) coupled to said moving means (4; 104) for
continuously detecting at least a displacement of said moving means (4; 104) and sending
a related signal to said control unit (20) so as to control and adjust during wrapping
said load a position of said folding element (3) along said narrowing trajectory (R)
and thus a strip width (L) of said film (50).
2. Apparatus according to claim 1, comprising second sensor means (21, 23; 121, 123)
for detecting stroke end positions of said moving means (4; 104), said second sensor
means (21, 23; 121, 123) being connected to said control unit (20) for sending thereto
respective stop signals of said driving means (10).
3. Apparatus according to claim 1 or 2, wherein said first sensor means (30; 130) comprise
an angular position transducer that is coupled to and rotated by said moving means
(4; 104).
4. Apparatus according to claim 3, wherein said angular position transducer comprises
a phonic wheel (31; 131), which is connected to said moving means (4; 104), and a
proximity sensor (32; 132) associated with said phonic wheel (31; 131) for detecting
a rotation thereof and sending related signals to said control unit (20).
5. Apparatus according to any preceding claim, wherein said moving means (4) comprise
screw nut means (41) supporting said folding element (3) and screw means (42) that
are coupled to, and support, said screw nut means (41), said screw means (42) being
rotatably fixed to said frame means (2) and rotated by said electric actuator means
(5) so as to move linearly said screw nut means (41) and said folding element (3)
along said narrowing trajectory (R).
6. Apparatus according to claim 3 and 5, wherein said angular position transducer (30)
is coupled to said screw means (41), in particular said angular position transducer
comprising a phonic wheel (31) that is fixed to said screw means (41) and is rotatable
therewith, and a proximity sensor (32), which is associated with said phonic wheel
(31) for detecting a rotation thereof and sending related signals to said control
unit (20).
7. Apparatus according to any of claims 1 to 4, wherein said moving means (104) comprise
a carriage (144) supporting said folding element (3), a guide (145) slidably supporting
said carriage (144) along said narrowing trajectory (R) and operating means (141)
moved by said electric actuator means (5) and connected to said carriage (144) for
moving the latter along said narrowing trajectory (R).
8. Apparatus according to claims 3 and 7, wherein said angular position transducer (130)
is coupled to said operating means (141), in particular said angular position transducer
(130) comprising a phonic wheel (131), which is connected to said operating means
(141) and is rotatable around a respective axis, and a proximity sensor (132) that
is associated with said phonic wheel (131) for detecting a rotation thereof and sending
related signals to said control unit (20).
9. Apparatus according to any of claims 1 to 4, wherein said moving means comprise a
slide supporting said folding element (3) and said electric actuator means comprise
a linear electric motor that is suitable to support and move said slide along said
narrowing trajectory (R), said first sensor means comprising a linear position transducer
that is connected to said slide.
10. Apparatus according to any preceding claim, comprising motion transmission means (6;
106) for connecting said electric actuator means (5) to said moving means (4; 104).
11. Apparatus according to any preceding claim, wherein said roller means comprise first
roller means (11, 12, 13) for unwinding from said reel (60) and pre-stretching said
film (50) and second roller means (14) for deflecting said film (50) towards said
load, said folding element (3) being interposed between said first roller means (11,
12, 13, 15) and said second roller means (14).
12. Apparatus according to any preceding claim, wherein said folding element (3) comprises
a respective roll which is free to rotate around a respective axis and which is provided
with a groove (3a) suitable to abut and receive said first longitudinal edge (50a)
so as to roll up the latter pushing it towards the second longitudinal edge (50b)
and to carry out a rolled portion (50c) of film or a rope.
13. Apparatus according to any preceding claim, comprising a further folding element (3)
movable by said driving means (10) along said narrowing trajectory (R) in a direction
that is opposite to said folding element (3) for abutting said second longitudinal
edge (50b) and pushing the latter towards said first longitudinal edge (50a) so as
to reduce, in cooperation with said folding element (3), a strip width (L) of said
film (50) exiting said apparatus (1).
14. Self-propelled wrapping machine (100) movable around a load for wrapping the load
with a plastic material film and comprising an unwinding apparatus (1) of said film
(50) according to any preceding claim.