This invention relates to a unit for positioning a sheet of film to cover the tops of product groups.
At present, stretch or shrink wrapping machines include units for positioning a sheet of film, cut to size, on the top of each group of products to be wrapped so as to provide a better hold on all the surfaces of the group of products.
These units may be used in any of several types of prior art wrapping machines and apparatuses, including, in a first solution, those with a vertically mobile ring where a roll mounting unit is moved relative to the product being wrapped.
In another solution, the wrapping apparatus comprises an L-shaped arm which mounts a roll unit that rotates around the group of products.
In yet another type of wrapping apparatus, it is the product to be wrapped that is moved relative to the roll unit.
Usually, a machine of the first type mentioned above comprises a mounting frame, normally bridge-shaped, and a roll mounting carriage supported on another structure which is in turn supported by the mounting frame. The mounting frame is normally located near a roller, belt or other suitable conveying system which feeds the products to be wrapped, usually on pallets, and positions them in the middle of the wrapping area.
The roll carriage mounts a roll of stretch plastic film and, usually, a unit for unwinding and pre-stretching the film from the roll.
The unit for positioning the top cover sheet may be positioned at the top of the mounting frame of these machines, said unit essentially comprising:
a roll of film positioned horizontally;
a power-driven gripper unit running on rails horizontally along the top of the wrapping area and designed to grip the free end of the film and to unwind a predetermined length of it, depending on the size of the group of products;
film cutting means located in the vicinity of the roll and designed to separate the length of film thus unwound from the rest of the film on the roll.
After being cut off, the sheet of film is released also by the gripper unit and allowed to fall onto the top of the group of products.
It is clear that a unit made in this way has several drawbacks due to: the low degree of precision in positioning the sheet; the high risk of the sheet getting crumpled as it moves down over the product; the low speed at which the operation is performed compared to usual wrapping machine speeds; and, in some cases, the incorrect distribution of the film on the top of the products (too much on some sides and too little on the others).
In one solution aimed at improving the units described above (see patent EP 336.517) a film unwinding unit and the gripper unit are moved simultaneously towards each other from opposite sides (by suitable means and guides) in such a way as to meet at the half way line of the wrapping area where the end of the film is gripped by the gripper unit and the two units are moved apart again so as to unwind the film to the required length which can then be cut off.
This solution, though an improvement over prior solutions, requires cumbersome guide structures, two drive systems and means for synchronizing the movements of the unwinding unit with those of the gripper unit, all of which add up to considerably increasing the size and cost of the unit.
The present invention has for an aim to overcome the above mentioned disadvantages by providing a unit which can position a sheet of film to cover the tops of product groups which is extremely simple, reduced in size, and permits the achievement of good productivity levels and a high degree of positioning precision.
According to the invention, this aim is achieved by a unit for positioning a sheet of film to cover the tops of product groups and, more specifically, a unit for positioning a sheet of film to cover the tops of product groups comprising the technical characteristics defined in one or more of the annexed claims.
The technical characteristics of the invention, with reference to the above aims, are clearly described in the claims below and its advantages are 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:
With reference to the accompanying drawings, in particular
More specifically, the unit 4 is associated with an apparatus 5 for wrapping product groups 3 with film 7 of substantially the same type as the film used to cover the tops of the products.
The apparatus 5 may be one of several different types,
The apparatus 5 illustrated comprises a frame 8 mounting an L-shaped arm 9a slidably engaged with a carriage 9 that moves relative to the group 3 of products to be wrapped with the film 7 to define a wrapping area 10 through which the product groups 3 are moved and where they are positioned for example by a roller conveyor 10a.
The carriage 9 in turn mounts a first roll 11 of film for wrapping the group 3 of products (these parts being illustrated schematically since they are of known type) and the roll is moved by the carriage 9 up and down along the arm 9a.
The frame 8 also mounts the above mentioned positioning unit 4 which essentially comprises a second roll 12, a first horizontally mobile carriage 13 equipped with a first gripper unit 16 and means 17 for cutting the film 2.
Looking in more detail, the second roll 12 of film 2 is positioned horizontally and, usually, outside the wrapping area 10.
The first carriage 13 is slidably mounted, on both sides, on guide rails 14 running along an upper horizontal plane, and is driven in both directions along the wrapping area 10 by motorized movement means 15 (see arrow F13).
As mentioned above, the first carriage 13 mounts the first gripper unit 16 designed to grip the free end of the film 2 and to unwind the film 2 for a predetermined length, dependent on the size of the product group 3, (the gripper unit 16 being illustrated schematically since it is of a type well known to those familiar with the trade).
The film 2 cutting means 17 are located in the vicinity of the second roll 12 and are designed to separate the unwound length of film from the rest of the film 2 to define the sheet 1. The cutting means 17 usually consist of a blade that slides parallel with the second roll 12 and are also equipped with means for keeping the free end of the film 2 protruding from the roll 12 in an aligned condition after the sheet 1 has been cut off.
As may be inferred from
As illustrated also in
In addition to the above, the unit 4 comprises (see also
a second carriage 18 slidably mounted on the guide rails 14 opposite the first carriage 13 and in the vicinity of the cutting means 17 (
a second gripper unit 19 mounted on the second carriage 18, acting on the film 2 in such a way as to hold the sheet 1 at a second point when the cutting means 17 are activated;
means 20 for coupling the second carriage 18 to the motorized movement means 15 (that is to say, to the belts) in such a way that, when engaged, the two carriages 13 and 18 can move together as one (see arrows F18 in
The second carriage 18 is also equipped with means 21 for supporting the passing film 2 while it is being unwound by the first carriage 13.
More specifically, the supporting means 21 define a contact base for the second gripper unit 19 enabling the latter to hold the sheet 2 at the second retention point when the cutting means 17 are activated (as described in more detail below).
As illustrated in
To accommodate the coupling means 20, each beam 14 also has an inner beam 23 attached, inside the āCā, to the vertical section of the beam 14 and positioned above the area where the wheel units 13a and 18a pass.
The belt 15 section 15a, which is acted upon by the coupling means 20 and to which the first carriage 13 is attached, slides inside the inner beam 23.
Looking more closely at the technical details, the coupling means 20 comprise, a clamping member 24 located at and associated with each end of the second carriage 18.
Each clamping member 24 at least partly and transversely engages the respective inner C-beam 23 in such a way as to face both sides of the section 15a of the belt 15.
Each of the clamping members 24 is acted upon by an actuator 25 designed to move the clamping member 24 between a configuration where the section 15a of the belt 15 is stably gripped so as to perform the joint movement with the first carriage 13 and a configuration where the belt section 15a is released (see
More specifically, each clamping member 24 consists of:
a fixed contact base 26 attached to the second carriage 18, extending into the inner C-beam 23 under the area where the section 15a of the belt 15 is engaged;
a mobile claw 27 hinged at 28 to a support 29 of the second carriage 18 and extending into the inner C-beam 23.
The outside free end of the claw 27 is acted upon by the actuator 25.
One end of the latter is linked to the second carriage 18 while the other end is pivoted at 30 to a drive arm 31 attached to the mobile claw 27: this kinematic configuration enables the claw 27 to turn between a raised, idle position where the claw 27 is away from the section 15a of the belt 15 (see
As shown in
Returning now to the second gripper unit 19 and to the supporting means 21 (see
a pair of supporting means 21, each consisting of contact plates 21p associated with the second carriage 18 and having an L-shaped portion protruding downwardly under the second carriage 18 in such a way that its horizontal section supports the longitudinal edge film 2 being unwound;
a pair of vertical actuating pressers 32 positioned on the second carriage 18 in the vicinity of the plates 21p in such a way as to face the horizontal section of the shaped portion.
Each actuator 32 is mobile between an idle position where the working head 32a of the rod is away from the horizontal section and a working position where the working head 32a stops the film 2 between the head 32a itself and the horizontal section of the plate 21p (see arrow F32,
The unit 4 made in this way thus feeds the sheet 1 through the steps illustrated in
The film 2 is unwound by the first carriage 13 for a predetermined length (dependent on the size of the product group 3) and the first carriage 13 is then stopped.
Next, while the cutting means 17 cut off the film 2, the second gripper unit 19 is activated and grips the sheet 1 by the end defined by the cut.
The means 20 for coupling the second carriage 18 with the drive belt 15 of the first carriage 13 are also activated.
At this point, when the belt 15 is restarted, it moves the two carriages 13 and 18 together as one until the sheet 1 is positioned centrally over the product group 3 (see
Once the sheet 1 has been released by opening the gripper units 16 and 19, the belt 15 reverses its direction of travel and moves the second carriage 18 back to its starting position, where the coupling means 20 are disengaged, while the first carriage 13 continues moving until it reaches the position where it can pick up the free end of the film 2 again (
A unit as described above fully achieves the aforementioned aims thanks to a simple structure that can operate at a good production speed and can position the film centrally on the product group (irrespective of its size) with a high level of repeatable accuracy. All of this is accomplished with a reduced number of fixed and mobile parts and with a single drive system for both the movement carriages.
The invention described has evident industrial applications and may be modified and adapted in several ways without thereby departing from the scope of the inventive concept. Moreover, all the details of the invention may be substituted by technically equivalent elements.
Number | Date | Country | Kind |
---|---|---|---|
BO2006A0099 | Feb 2006 | IT | national |
Number | Name | Date | Kind |
---|---|---|---|
4513558 | Treiber | Apr 1985 | A |
4583348 | Treiber et al. | Apr 1986 | A |
4936080 | Haloila | Jun 1990 | A |
5595042 | Cappi et al. | Jan 1997 | A |
5603198 | Rimondi et al. | Feb 1997 | A |
6170236 | Whitby et al. | Jan 2001 | B1 |
6189302 | Kudo et al. | Feb 2001 | B1 |
6192662 | Rimondi et al. | Feb 2001 | B1 |
6584752 | Herava | Jul 2003 | B1 |
7594371 | Suolahti | Sep 2009 | B2 |
Number | Date | Country |
---|---|---|
44 13 361 | Dec 1994 | DE |
0 336 517 | Oct 1989 | EP |
1 149 767 | Oct 2001 | EP |
2 639 611 | Jun 1990 | FR |
8 501 270 | Dec 1986 | NL |
WO 0053498 | Sep 2000 | WO |
WO 0066434 | Nov 2000 | WO |
Number | Date | Country | |
---|---|---|---|
20070189762 A1 | Aug 2007 | US |