The present finding refers to a self-propelled machine for wrapping stacked loads with protective film, adapted to move independently, that is without being driven by an operator.
More particularly, this wrapping machine is used in the packaging industry for wrapping and thereby stabilising said stacked loads with a plastic film which unwinds from a reel.
Unlike the more conventional equipment in existence, Involving bulky support frameworks fixed to the ground, machines of this type are able to move around stacked loads, automatically following their shape; as well as doing their job, accordingly, they must be both small enough in bulk to be able to move nimbly between stacked loads and easily transportable.
A self-propelled wrapping machine generally comprises an elevator system enabling a reel-bearing slide to move vertically, a mobile supporting carriage allowing its movement through a system of wheels, and an automatic guidance system enabling the machine to follow the shape of the stacked load automatically, without the help of an operator.
Existing self-propelled wrapping machines are generally fitted with two driving wheels driven by a single motor via a suitable transmission. The wheels are positioned on the rear of the mobile carriage, behind a swivelling wheel with its associated mechanical system for automatic guidance.
Said automatic guidance system comprises, in addition to said swivelling wheel, a control mechanism which controls its steering and a contact roller adapted to stay in contact with the lateral surfaces of the stacked load to be wrapped.
In particular, when in operation the roller is pressed against one of these surfaces by a spring system connected with the control mechanism, and is free to make small horizontal movements to follow the surface's shape; these movements alter the relative positions of roller and machine; this changes the mechanism's configuration, and that in turn steers the wheel accordingly.
For as long as said roller is in contact with a plane surface, the guidance system takes up a pre-set configuration which keeps the steered wheel straight, enabling the machine to proceed in a straight line at a fixed distance from the surface itself.
When, on the other hand, said roller moves past a projection in the shape of the stacked load, it no longer finds itself in contact with the lateral surface, and the mechanism automatically takes up the configuration necessary for steering. In this way the machine turns, and moves around said projection until the roller comes into contact with the next surface of the shape of the stacked load; this brings the system back to its initial state, and the machine's new course is set.
One problem affecting said known machines arises from the fact that said guidance system is not only quite complicated structurally but also results in very wide turns around the stacked load, diminishing the effectiveness of application of the stretch film and, worst of all, extending the area taken up by the machine—that is the free space it requires to move around the stacked load itself.
Furthermore, since the elevator system, and with it the reel-bearing slide, is usually positioned at the rear of the machine in order to be near its driving wheels, the film being applied exerts a drag on the machine in a direction opposite to its motion, and this can in some circumstances cause the steered wheel to lift, making steering ineffective, while in other circumstances it can actually topple the machine itself.
The main purpose of the present finding is to remedy the problems identified above.
Another purpose of the finding is to achieve said object as part of a constructional solution that is simple, rational, reliable and takes up only a limited space.
Said purposes are achieved by means of a guidance system with the characteristics set forth in the Claims.
In the most general sense, a self-propelling wrapping machine according to this finding is equipped with an electromechanical automatic guidance system which acts by suitably adjusting the speed of the driving wheels in such a way as to steer the self-propelling wrapping machine so that it follows the shape of the lateral surfaces of the stacked load.
This results in a steering of a curve of greatly reduced radius, so much so that the machine can follow a course which is essentially around the stacked load; at the same time the absence of any bulky, complicated guidance mechanism means a very small machine can be built, taking up less space.
Moreover, the above solution provides for the reel-bearing slide to be positioned at the front, considerably reducing the risk of the machine tilting or toppling over in operation.
The finding's characteristics and constructional advantages will be clear from the detailed description below, which refers to the figures in the attached drawing sheets; that illustrate a particular and preferred embodiment, merely by way of non-limiting example.
The invention concerns a self-propelled machine (1) for wrapping stacked loads with stretch film (10) which unwinds from a reel (11), adapted to move around said stacked load automatically following its shape (see
This self-propelled wrapping machine comprises a supporting mobile carriage (4) adapted to move on the plane of the floor, a handlebar (3) on which the manual steering controls are mounted, and an elevator system (2) mounted on this mobile carriage (4) for moving the stretch film reel (11) vertically.
Said elevator system (2) comprises an upright telescopic unit comprising in particular a fixed pillar (20) upon which slides a moving pillar (21), and a reel-bearing slide (22) adapted in turn to slide upon said moving pillar (21).
A motor (23) (see
In addition, a second chain (26) with one end anchored to the mobile carriage and the other attached to the reel-bearing slide (22), is arranged to as a pulley running through an idling pinion (27) integral to the mobile pillar (21).
Thus, when the mobile pillar (21) and accordingly also the idling pinion (27) are raised through a given distance with respect to the mobile carriage, said chain (26) raises the reel-bearing slide (22) through twice that distance: this enabling it to reach even very great heights.
According to the invention (see
Said servocontrol (51) comprises (see
The contact device (50) is free to swing in a horizontal plane, and consists of a contact roller (54), a supporting arm (55) and a gearwheel sector (56).
One end of said supporting arm (55) is hinged onto the machine by a hinge (57) bolted to the mobile carriage (4), and the other end, free and protruding from the machine, bears said contact roller (54), which is free to pivot around a second hinge (58) bolted to the arm (see
Lastly, the automatic guidance system (5) comprises a spring (59) attached to the gearwheel sector (56) and the mobile carriage, its force being transmitted to the contact roller (54) via the contact device (50) which works as a lever; and two cylindrical end-stops (60) integral to the mobile carriage, which limit the above swings of the contact device (50) due to rotation around the hinge (57).
The subject machine is also designed (see
As the wrapping machine (1) advances (see
Said contact surface may be defined by the lateral and vertical surface (32) of an ordinary pallet (30) bearing the stacked load (31) to be wrapped (as in the case illustrated in the figures), or it may be defined by the lateral (more or less) vertical walls of the stacked load (31) itself.
Contact between the contact device (54) and the contact surface (32) is maintained by means of the spring (59) which uses the leverage of the contact device (50) to press the former against the latter with a given amount of force.
Thus if the surface profile is not straight but variable, then at every change of direction the contact roller (54) is immediately at a different distance from the machine, and this change of distance is detected by the contact device (50). Infact (see
This electrical signal controls the speed of the driving wheels (40, 41) via the driving motors (42, 43), in such a way that the machine follows the profile of the contact surface (32).
Thus when the machine moves forward following a straight profile at a constant distance, the signal output by the potentiometer (52) is such as to make the driving wheels (40, 41) move forward with equal speed; in the event of a change of direction, on the other hand, the signal is such as to slow one wheel with respect to the other so that the machine turns, following the profile of the contact surface (32) and restoring the original distance between machine and surface.
There are various means of controlling one driving wheel with respect to the other: for instance, the speed of one wheel could be kept constant while that of the other is varied (until it is stopped); or one wheel could be speeded up and the other slowed down.
In particular (see
The contact roller (54) is set at a fixed height above floor level particularly suitable for following the perimeter surface (32) of the pallets (30) while palletised loads are being wrapped.
Provision could be made for vertical adjustment of said contact roller (54) so as to adapt the machine for wrapping stacked loads whose maximum perimeter was not at their base, for instance because they contain projecting parts.
Number | Date | Country | Kind |
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RE2004A0046 | Apr 2004 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/004641 | 4/29/2005 | WO | 00 | 10/17/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2005/110852 | 11/24/2005 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4067174 | Goldstein | Jan 1978 | A |
4616474 | Morley et al. | Oct 1986 | A |
Number | Date | Country | |
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20070169442 A1 | Jul 2007 | US |