Patent Description:
It is known in the packaging industry to wrap with a film or a film of extensible material, for example plastic, a load formed by a single product or by a plurality of products on a pallet. In particular, the known wrapping machines comprise at least one unwinding apparatus which is movable along and/or around a winding axis and which supports a reel of film from which the film is unwound to be wrapped around the load so as to form a series of strips or bands generally having a helical trend, by virtue of the combination of the relative linear and rotational movements between the unwinding apparatus and the load.

In addition to supporting a reel of film, the unwinding apparatus is generally provided with a pair of pre-stretching rollers suitable for stretching and unwinding the film and one or more guiding rollers to divert the film towards the load during the unwinding. The pre-stretching rollers rotate with different speeds so as to stretch or elongate the film during the unwinding from the reel. More precisely, a first pre-stretching roller (called a fast roller) rotates with a speed greater than the rotation speed of a second pre-stretching roller (called a slow roller) located upstream of the first pre-stretching roller with reference to a film unwinding direction. By appropriately adjusting the difference between the rotational speeds of the two pre-stretching rollers, it is possible to stretch or elongate by a defined amount, according to a fixed pre-stretch or elongation percentage, the film exiting from the unwinding apparatus before it is wrapped on the load.

The film is stretched before being wrapped on the load since the stretching, or elongation, allows the best use of the film and gives the latter physical-mechanical features such as to make it more suitable to withstand the forces acting on the load during the subsequent handling and transport. In particular, when the stretching force ceases, the elastic return of the film determines a clamping force on the load which ensures the containment of the latter. The stretching is generally expressed as a percentage of the ratio between the elongation of the film (difference between the final length of the stretched film and the original length) and the original length. The elongation imparted to the film is usually between <NUM> and <NUM>%. The stretching or pre-stretching force exerted by the pre-stretching rollers also allows the thickness of the film to be considerably reduced so as to proportionally increase its length to wrap a greater load perimeter with the same initial amount of unwound film and also allows the mechanical features of the film to be changed.

The pre-stretching force to which the film is subjected to obtain a certain elongation ratio or percentage depends on the type of load to be wrapped (e.g., more or less stable products) and on a number of factors such as initial film thickness, the physical-mechanical features of the material of the film (type of material, composition, quantity and distribution of any internal impurities and inhomogeneities), the environmental conditions (temperature, humidity) in which the load is wrapped.

For driving the pre-stretching rollers, unwinding apparatuses are known comprising an electric motor which rotatably drives one of the two pre-stretching rollers, which acts as a motor roller (typically the fast roller) and, through a mechanical motion driving assembly, the other pre-stretching roller which acts as a driven roller (typically the slow roller). Thereby, a fixed driving ratio is imposed between the fast roller and the slow roller, depending on the value or percentage of pre-stretch or elongation to be obtained on the film. The mechanical driving assembly is substantially a speed reducer connecting the shaft of the fast roller to the shaft of the slow roller, reducing the angular rotation speed of the latter with respect to that of the fast roller.

Unwinding apparatuses are also known which comprise two electric motors that separately and independently drive the two pre-stretching rollers, allowing to vary the driving ratio quickly and easily, i.e., the pre-stretch percentage to be exerted on the film, also during operation.

Each pre-stretching roller substantially comprises a cylindrical body, or cylinder, made of metallic material, typically made of steel sheet, covered externally by a layer of elastomeric material (rubber) which ensures the necessary adhesion with the material of the film.

The cylinder is obtained, for example, by means of a rolling or calendering process from a steel sheet of suitable thickness. The cylinder thus obtained must have an almost constant circular section for its entire longitudinal extension and be axial-symmetrical with reference to one of its central longitudinal axes around which it is then rotated.

Two flanges are fixed to the opposite ends of the cylinder, for example by welding. The flange of an upper end of the cylinder is connected to and supports a driving pin intended to be coupled with the electric motor or speed reducer. The flange of the lower end of the cylinder is connected to a supporting pin intended to rotatably engage in a seat of a supporting frame of the unwinding unit so as to support the pre-stretching roller in rotation. In order to ensure a correct and balanced rotation of the presser roller around its longitudinal axis and to avoid dangerous oscillations and/or vibrations, the driving pin and the supporting pin must be exactly coaxial with each other and with the longitudinal axis.

The production process of a pre-stretching roller is thus particularly complex and laborious and the roller thus obtained is therefore quite expensive.

Furthermore, the driving pin must be shaped and/or sized based on the electric motor and/or the reducer to which it must be coupled and/or the structure and/or the dimensions of the unwinding apparatus.

Numerous versions of pre-stretching rollers must thus be envisaged and produced to create different types of unwinding apparatuses, which leads to an increase in production and stock management costs. A pre-stretching roller according to the preamble of claim <NUM> is shown in <CIT>.

An object of the invention is to overcome the disadvantages illustrated above and in particular to improve the known pre-stretching rollers mountable on unwinding apparatuses of wrapping machines suitable for wrapping a load with a film of extensible material.

Another object is to provide a pre-stretching roller which can be installed easily and quickly on any type of unwinding apparatus.

A further object is to create a pre-stretching roller having simple and economical construction and precise and reliable operation.

Another object is to provide a method for economically, quickly and accurately manufacturing a pre-stretching roller for an unwinding apparatus.

Another further object is to provide an unwinding apparatus for a wrapping machine provided with pre-stretching rollers having simple and economical construction and precise and reliable operation
A further object is to create an unwinding apparatus that is fast and easy to assemble and has precise and reliable operation.

In a first aspect of the invention, a pre-stretching roller is included for an unwinding apparatus of a wrapping machine according to claim <NUM>.

In a second aspect of the invention, a manufacturing method is envisaged for making a pre-stretching roller for an unwinding apparatus of a wrapping machine according to claim <NUM>. In a third aspect of the invention, an unwinding apparatus is provided which can be associated with a wrapping machine according to claim <NUM>.

The pre-stretching roller of the invention mountable on an unwinding apparatus of a wrapping machine for interacting with a film of extensible plastic material, comprises a main body elongated along a longitudinal central axis and obtained by means of an extrusion process. The main body includes a first tubular element having a cylindrical shape and defining an external cylindrical wall suitable for interacting with the film; a second tubular element internal to the first tubular element and having a first end provided with a first seat suitable for receiving and coupling with a driving shaft of driving means of the unwinding apparatus and an opposite second end provided with a second seat suitable for receiving and coupling with a supporting pin for fixing the pre-stretching roller to the unwinding apparatus; a plurality of longitudinal vanes, parallel to the central axis and which connect the first tubular element to the second tubular element.

The second tubular element also comprises a plurality of longitudinal ribs, each of which is connected to a respective longitudinal vane.

By virtue of the seats made on the opposite ends of the second tubular element, the pre-stretching roller according to the invention can be easily mounted on an unwinding apparatus and connected, in particular, to a driving shaft of driving means of the unwinding apparatus. Furthermore, since the central body is made by means of an extrusion process, few machining operations are necessary for the machine tool to obtain the desired dimensions and geometric tolerances and to precisely and accurately make the first and second seats intended to receive the driving shaft and the supporting pin.

The particular structure of the central body comprising a first external tubular element and a second internal tubular element separated and spaced apart, but connected by a plurality of longitudinal vanes, makes it possible to obtain a lighter pre-stretching roller than the known pre-stretching rollers and at the same time resistant to mechanical stresses, in particular bending and twisting. In particular, the longitudinal ribs of the second internal tubular element allow to reduce the wall thickness and at the same time ensure an adequate structural resistance to the entire central body of the pre-stretching roller.

The method according to the invention for manufacturing a pre-stretching roller mountable on an unwinding apparatus of a wrapping machine comprising the steps of: extruding an elongated main body along a longitudinal central axis and comprising a first tubular element having a cylindrical shape and defining an external cylindrical wall suitable for interact with the film, a second tubular element inside the first tubular element and provided with a plurality of longitudinal ribs; a plurality of longitudinal vanes, parallel to the central axis and connecting the first tubular element to the second tubular element, each longitudinal rib of the second tubular element being connected to a respective longitudinal vane; making on a first end of the second tubular element a first seat suitable for receiving and coupling with a driving shaft suitable for rotating the pre-stretching roller; and making on an opposite second end of the second tubular element a second seat suitable for receiving and coupling with a supporting pin for fixing the pre-stretching roller on the unwinding apparatus.

By virtue of the extrusion process, the method of the invention allows to manufacture a central body which requires little machining by the machine tool in order to obtain the desired dimensions and geometric tolerances and to precisely and accurately make the seats destined to receive and be coupled with the driving shaft and the supporting pin. The extrusion process also makes it possible to manufacture a pre-stretching roller having such a structure (a first external tubular element and a second internal tubular element separated and spaced apart, but rigidly connected by a plurality of longitudinal vanes angularly spaced apart) as to reduce the mass and weight with respect to the known pre-stretching rollers and at the same time have high resistance values to mechanical stresses, in particular bending and twisting. In particular, the longitudinal ribs also made by extrusion on the second internal tubular element allow to reduce the wall thickness of the aforesaid second tubular element and at the same time ensure adequate structural resistance to the entire central body of the pre-stretching roller.

The unwinding apparatus of the invention associable with a wrapping machine for dispensing a film with which to wrap a load, comprises at least one pair of pre-stretching rollers suitable for unwinding from a reel and then pre-stretching a film and means of driving means for rotatably driving the pre-stretching rollers. Each pre-stretching roller comprises a main body elongated along a longitudinal central axis and obtained by an extrusion process, in particular of a metal alloy, and including a first tubular element having a cylindrical shape and defining an external cylindrical wall suitable for interacting with the film; a second tubular element inside the first tubular element and having a first end provided with a first seat suitable for receiving and coupling with a respective driving shaft of the driving means and an opposite second end provided with a second seat suitable for receiving and coupling with a supporting pin of the unwinding apparatus; a plurality of longitudinal vanes, parallel to the central axis and connecting the first tubular element to the second tubular element; the second tubular element further comprising a plurality of longitudinal ribs, in particular parallel to the central axis, each longitudinal rib being connected to a respective longitudinal vane.

By virtue of the pre-stretching rollers provided with seats made on the opposite ends of the second tubular element, the unwinding apparatus of the invention can be quickly assembled. More precisely, by virtue of the seats, the pre-stretching rollers can be easily mounted on the unwinding apparatus and connected to the driving shafts of its driving means.

The invention can be better understood and implemented with reference to the attached drawings which illustrate exemplifying and non-limiting embodiments thereof, in which:.

With reference to <FIG>, the pre-stretching roller <NUM> according to the invention is illustrated, which can be mounted on an unwinding apparatus <NUM> of a wrapping machine and suitable for interacting with a film <NUM> of extensible plastic material, in particular suitable for unwinding the film <NUM> from a reel <NUM> and stretching it in cooperation with another identical pre-stretching roller <NUM>.

With reference to <FIG>, the unwinding apparatus <NUM> of the invention comprises a pair of pre-stretching rollers <NUM> intended, by rotating at different speeds, to unwind the film <NUM> from a reel <NUM> and then pre-stretch or elongate it and driving means <NUM>; <NUM> suitable for rotating, in particular around respective longitudinal axes, the pre-stretching rollers <NUM>.

The driving means of the unwinding apparatus <NUM> can comprise a single rotary electric motor <NUM> coupled to and driving one of the pre-stretching rollers <NUM>, which acts as a "fast" roller, and a speed reducer <NUM> driven by the electric motor <NUM> and coupled to and driving the other pre-stretching roller <NUM>, which acts as a "slow" roller (<FIG>).

Otherwise, the driving means of the unwinding apparatus <NUM> can comprise two rotary electric motors <NUM> coupled to the respective pre-stretching rollers <NUM> to drive the latter separately and independently.

With reference to <FIG>, the output shaft of the speed reducer <NUM> of the unwinding apparatus <NUM> of <FIG> is the second driving shaft <NUM> of the driving means connected to the respective pre-stretching roller <NUM>.

With reference to <FIG>, the output shaft of the rotary electric motor <NUM> of the driving means of the unwinding apparatus of <FIG> and of the unwinding apparatus of <FIG> is the first driving shaft <NUM> of the driving means connected to the respective pre-stretching roller <NUM>.

Referring to <FIG>, each pre-stretching roller <NUM> comprises a main body <NUM> elongated along a longitudinal central axis X and obtained by an extrusion process. The main body <NUM> is for example made of metal alloy, in particular aluminium alloy.

The central axis X coincides with the rotation axis of the pre-stretching roller <NUM> when mounted on the unwinding apparatus <NUM>.

The main body <NUM> includes a first tubular element <NUM>, a second tubular element <NUM>, and a plurality of longitudinal vanes <NUM>.

The first tubular element <NUM> has a cylindrical shape and defines an external cylindrical wall 3a suitable for interacting with the film <NUM>. The second tubular element <NUM>, internal to the first tubular element <NUM> has a first end <NUM> provided with a first seat <NUM> suitable for receiving and coupling with a respective driving shaft <NUM>, <NUM> arranged to rotate the pre-stretching roller <NUM> around the central axis X and an opposite second end <NUM> provided with a second seat <NUM> suitable for receiving and coupling with a supporting pin <NUM> of the unwinding apparatus.

The longitudinal vanes <NUM> are parallel to the central axis X and connect the first tubular element <NUM> to the second tubular element <NUM>. More precisely, the longitudinal vanes <NUM> are almost radial with reference to the central axis X. Furthermore, the longitudinal vanes <NUM> are angularly spaced from each other around the central axis X.

The second tubular element <NUM> also comprises a plurality of longitudinal ribs <NUM>, in particular parallel to the central axis X, each longitudinal rib <NUM> being connected to a respective longitudinal vane <NUM>.

This structure of the second tubular element <NUM> with longitudinal ribs <NUM> allows to reduce the wall thickness of the second tubular element <NUM> and at the same time ensures an adequate structural strength to the entire central body <NUM>.

The first tubular element <NUM> and the second tubular element <NUM> are coaxial to the central axis X.

The second tubular element <NUM> comprises a cylindrical through cavity <NUM>; the first seat <NUM> and the second seat <NUM> are made in the cylindrical through cavity <NUM> at the first end <NUM> and the second end <NUM>, respectively. The first seat <NUM> comprises an end portion of the cylindrical through cavity <NUM> and is provided with a longitudinal keyway <NUM>, i.e., parallel to the main axis X, suitable for partially receiving a key or tab <NUM> for coupling with the driving shaft <NUM>, <NUM>. The tab <NUM> allows to transfer the rotation torque from the driving shaft <NUM>, <NUM> to the pre-stretching roller <NUM>. The second seat <NUM> is shaped to receive bearing means <NUM> suitable for rotatably supporting the supporting pin <NUM>.

The bearing means <NUM> comprise, for example, a rolling body bearing fixed radially and axially in the second seat <NUM>.

The supporting pin <NUM> is fixed, for example, by means of a screw <NUM> to a supporting plate <NUM> of the unwinding apparatus <NUM>. More precisely, the supporting pin <NUM> is inserted in a seat <NUM> of the supporting plate <NUM> provided with a through hole for the screw <NUM>.

The first seat <NUM> and the second seat <NUM> are made by machining the machine tool, allowing to quickly and easily obtain the necessary dimensions and geometries to ensure a precision coupling, with reduced dimensional and geometric tolerances, with the driving shaft <NUM>, <NUM> and the bearing means <NUM>.

The longitudinal groove <NUM> of the first seat <NUM> is made in one of the longitudinal ribs <NUM>.

The pre-stretching roller <NUM> also comprises a coating <NUM> applied around the main body <NUM>, in particular around the external cylindrical wall 3a, and made of material with a high friction coefficient, in particular in plastic and/or elastomeric material, to ensure the adhesion of the film on the pre-stretching roller <NUM> during the unwinding and pre-stretching.

The main body <NUM> of the pre-stretching roller <NUM> further comprises a transverse through opening <NUM> made at the first seat <NUM> of the second tubular element <NUM> and suitable for receiving a locking element <NUM> arranged to axially engage and lock the driving shaft <NUM>, <NUM> in a locking configuration L, i.e., arranged to prevent linear movements of the driving shaft <NUM>, <NUM> in the direction parallel to the central axis X (<FIG>).

The transverse through opening <NUM> is almost orthogonal to the central axis X, in particular it is radial with reference to the latter, and crosses the first tubular element <NUM>, one of the longitudinal vanes <NUM> and the second tubular element <NUM>.

The locking element <NUM> comprises a threaded pin and the transverse through opening <NUM> comprises a threaded portion 13a suitable for receiving and coupling with the threaded pin <NUM>. The latter comprises an operating end 14a intended to engage in an annular groove <NUM> made on the driving shaft <NUM>.

By virtue of the seats <NUM>, <NUM> made on the opposite ends <NUM>, <NUM> of the second tubular element <NUM>, the pre-stretching roller <NUM> according to the invention can be easily mounted on the unwinding apparatus <NUM> and connected in particular to the driving shaft <NUM>, <NUM>. More precisely, the supporting pin <NUM> can be pre-assembled on the pre-stretching roller <NUM> to allow it to be subsequently mounted on the supporting plate <NUM> of the unwinding apparatus <NUM>. In assembly, the driving shaft <NUM>, <NUM> is inserted in the first seat <NUM> and coupled to the central body <NUM> by means of the tab <NUM>.

Since the central body <NUM> is made by the extrusion of light metal alloy, typically aluminium, few machining operations are necessary for the machine tool to obtain the desired dimensions and geometric tolerances. The machining of the machine tool also makes it possible to create in a very precise and accurate manner the first <NUM> and the second seat <NUM> intended to receive the driving shaft <NUM>, <NUM> and the bearing <NUM> of the supporting pin <NUM>. In particular, it is possible to create coaxial and cylindrical seats which allow the pre-stretching roller to rotate even at high speeds without vibrations and/or oscillations.

The pre-stretching roller <NUM> of the invention can thus be easily and quickly mounted on any type of unwinding apparatus <NUM> since for mounting it only requires a suitable seat <NUM> on the supporting plate <NUM> for the supporting pin <NUM> and the end of a driving shaft <NUM>, <NUM>, of the electric motor or speed reducer, sized and positioned so as to be inserted and fixed in the first seat <NUM>.

It should be noted that the pre-stretching roller <NUM> of the invention, in addition to being simple and cheap to make, has a versatile use and precise and reliable operation.

The use of a light metal alloy, in particular an aluminium alloy, and the particular structure (comprising a first external tubular element <NUM> and a second internal tubular element <NUM> separated and spaced apart, but rigidly connected by a plurality of longitudinal vanes <NUM> angularly spaced apart) allow to make a lighter pre-stretching roller <NUM> than the known pre-stretching rollers and at the same time resistant to mechanical stresses, in particular bending and twisting.

The method according to the invention for manufacturing a pre-stretching roller <NUM> mountable on an unwinding apparatus <NUM> of a wrapping machine and suitable for interacting with a film <NUM> of extensible plastic material, comprising the steps of:.

According to the method of the invention, making the first seat <NUM> and the second seat <NUM> comprises machining a cylindrical through cavity <NUM> of said second tubular element <NUM> at the first end <NUM> and the second end <NUM>.

The method further includes making at the first seat <NUM> of the second tubular element <NUM> a transverse through opening <NUM> suitable for receiving a locking element <NUM> arranged to engage and axially lock the driving shaft <NUM>; <NUM> in a locking configuration L. More precisely, it is envisaged to make the transverse through opening <NUM> almost orthogonal to the central axis X, in particular radially with reference to said central axis X, and through the first tubular element <NUM>, one of the longitudinal vanes <NUM> and the second tubular element <NUM>.

The method of the invention thus allows to manufacture in a simple and precise manner a pre-stretching roller <NUM> to be mounted on an unwinding apparatus of a wrapping machine and intended to interact with a film <NUM>, in particular to unwind the film <NUM> from a reel <NUM> and stretch it in cooperation with another identical pre-stretching roller <NUM>.

The process of extruding the metal alloy, in particular a light alloy, such as an aluminium alloy, allows to create a central body <NUM> which requires little machining by the machine tool to obtain the desired dimensions and geometric tolerances. The machining of the machine tool also allows the first and the second seat intended to receive the driving shaft <NUM>, <NUM> and the bearing <NUM> of the supporting pin <NUM> to be made very precisely and accurately. In particular, it is possible to create coaxial and cylindrical seats which allow the pre-stretching roller to rotate even at high speeds without vibrations and/or oscillations.

The extrusion process also allows to manufacture a pre-stretching roller having such a structure (an external tubular element <NUM> and an internal tubular element <NUM> separated and spaced apart, but rigidly connected by a plurality of longitudinal vanes <NUM> angularly spaced apart) as to reduce the mass and weight with respect to the known pre-stretching rollers and at the same time have high values of resistance to mechanical stresses, in particular bending and twisting.

The invention further relates to an unwinding apparatus <NUM> associable with a wrapping machine for dispensing a film <NUM> of extensible plastic material with which to wrap a load, comprising at least one pair of pre-stretching rollers <NUM> suitable for unwinding from a reel <NUM> and then pre-stretching a film <NUM> and means of driving means <NUM>; <NUM> for rotatably driving the pre-stretching rollers <NUM>, each pre-stretching roller <NUM> comprising a main body <NUM> elongated along a longitudinal central axis X and obtained by means of an extrusion process, in particular of a metal alloy, and including a first tubular element <NUM> having a cylindrical shape and defining an external cylindrical wall 3a suitable for interacting with the film <NUM>; a second tubular element <NUM> inside the first tubular element <NUM> and having a first end <NUM> provided with a first seat <NUM> suitable for receiving and coupling with a respective driving shaft <NUM>; <NUM> of the driving means <NUM>; <NUM> and an opposite second end <NUM> provided with a second seat <NUM> suitable for receiving and coupling with a supporting pin <NUM> of the unwinding apparatus <NUM>; a plurality of longitudinal vanes <NUM>, parallel to the central axis X and connecting the first tubular element <NUM> to the second tubular element <NUM>; the second tubular element <NUM> further comprising a plurality of longitudinal ribs <NUM>, in particular parallel to the central axis X, each longitudinal rib <NUM> being connected to a respective longitudinal vane <NUM>.

The driving means <NUM>, <NUM> comprise a rotary electric motor <NUM> coupled to and driving one of said pre-stretching rollers <NUM> by a respective first driving shaft <NUM> and a speed reducer <NUM> driven by the electric motor <NUM> and coupled to and driving by means of a second driving shaft <NUM> the other pre-stretching roller <NUM>.

Alternatively, the driving means <NUM>, <NUM> can comprise a pair of rotary electric motors <NUM> coupled and driving separately and independently the respective pre-stretching rollers <NUM> by means of respective first driving shafts <NUM>.

Claim 1:
Pre-stretching roller (<NUM>) of an unwinding apparatus (<NUM>) associable to a wrapping machine, comprising a main body (<NUM>) elongated along a longitudinal central axis (X) and manufactured by an extrusion process, in particular of a metal alloy, and including:
- a first tubular element (<NUM>) having a cylindrical shape and defining an external cylindrical wall (3a) suitable for interacting with a film (<NUM>);
- a second tubular element (<NUM>) internal to said first tubular element (<NUM>) and having a first end (<NUM>) provided with a first seat (<NUM>) suitable for receiving and coupling with a driving shaft (<NUM>; <NUM>) of driving means (<NUM>; <NUM>) of said unwinding apparatus (<NUM>) and an opposite second end (<NUM>) provided with a second seat (<NUM>) suitable for receiving and coupling with a supporting pin (<NUM>) for fixing said pre-stretching roller (<NUM>) to said unwinding apparatus (<NUM>);
- a plurality of longitudinal vanes (<NUM>), parallel to said central axis (X) and which connect said first tubular element (<NUM>) to said second tubular element (<NUM>);
characterised in that
said second tubular element (<NUM>) comprises a plurality of longitudinal ribs (<NUM>), in particular parallel to said central axis (X), each longitudinal rib (<NUM>) being connected to a respective longitudinal vane (<NUM>).