CONVEYOR FOR TRANSPORTING PRODUCTS AND LINK FOR

CONVEYOR.

Technical field

This invention relates to a conveyor of the type with articulated links for transporting products.

Background art

Known in the prior art are conveyors of the type with articulated links for transporting products, in a working zone, plant or industrial machine and wherein each link of the conveyor comprises a transversal portion defining the product supporting surface, and a longitudinal portion, defining corresponding means for articulation to the adjacent links.

In the prior art conveyors the respective product supporting portion of the respective link comprises a first and a second plurality of protrusions extending longitudinally towards opposite and adjacent links, the protrusions being separated from each other by corresponding longitudinal gaps, or indentations, configured to receive the corresponding protrusions of the adjacent links of the conveyor of the respective link upstream and of the respective link downstream.

A problem seen with conveyors which use these type of links with longitudinal protrusions relates to a still excessive presence of spaces or openings between the links, in which the products conveyed, or parts thereof, may fall, or into which the fingers or other parts of the operators controlling the plant, machine or conveyor can be inserted.

More specifically, conveyors are used in the pharmaceutical industry which transport blister packs, containing the respective pharmaceutical product, which have increasingly large dimensions, and which require the use of conveyors having increasingly larger links, which are, however, very heavy and noisy. The need is felt in the field of having conveyors, in particular of the type with articulated links, which make it possible to achieve high speeds.

The field also feels the need for conveyors which are not very noisy, with obvious advantages in terms of health and safety of the work environments in which the conveyors are used.

Moreover, the trade also feels the need for conveyors which allow driving powers to be used which are as low as possible.

Aim of the invention

This invention proposes a novel solution, alternative to the solutions known up to now and which can overcome one or more of the above mentioned disadvantages and/or meet one or more of the requirements mentioned in or inferable from the above.

A conveyor is therefore provided of the type with articulated links for transporting products, in a working zone, plant or industrial machine; wherein each link of the conveyor comprises a portion defining the product supporting surface, and a portion, defining corresponding means for articulation to the adjacent links; the respective product supporting portion comprising a first and a second plurality of protrusions extending longitudinally towards the opposite and adjacent links, the protrusions being separated from each other by corresponding longitudinal gaps, or indentations, designed to receive the corresponding protrusions of the opposite and adjacent links; characterized in that the first plurality of protrusions, or links, which face towards a respective adjacent link, in particular opposite, comprise a respective central protrusion and respective and opposite first and second lateral protrusions; and in that, between the central protrusion and the respective lateral protrusions, there are corresponding first and second intermediate protrusions, respectively outer and inner.

In this way, there is a configuration of protrusions which is sufficiently dense to be make minimum spaces between the links, with obvious advantage with regard to the risk of insertion between the links of pieces or parts of pieces, or insertion between these of the fingers or other parts of the operators for monitoring the plant.

According to another aspect, a conveyor is provided of the type with articulated links for transporting products, in a working zone, plant or industrial machine; wherein each link of the conveyor comprises a portion defining the product supporting surface, and a portion, defining corresponding means for articulation to the adjacent links; the respective product supporting portion comprising a first and a second plurality of protrusions extending longitudinally towards the opposite and adjacent links, the protrusions being separated from each other by corresponding longitudinal gaps, or indentations, designed to receive the corresponding protrusions of the opposite and adjacent links; characterized in that the second plurality of protrusions, or links, which face towards a respective adjacent link, comprise a first and a second central protrusion, and a first and a second end protrusion, at the opposite lateral ends of the link; and in that, between the central protrusion and the respective lateral protrusion, there are a first and second intermediate protrusion, respectively outer and inner.

In this way, there is a configuration of protrusions which is sufficiently dense to be make minimum spaces between the links, with obvious advantage with regard to the risk of insertion between the links of pieces or parts of pieces, or insertion between these of the fingers or other parts of the operators for monitoring the plant.

Brief description of the drawings

These and other innovative aspects are set out in the appended claims and the technical features and advantages are also apparent from the detailed description which follows of non-limiting example embodiments of it with reference to the accompanying drawings, in which:

Figure 1A is a perspective view from above of a first preferred embodiment of the link according to this invention;

Figure 1B is a perspective view from below of the first preferred embodiment of the link according to this invention;

Figure 1C is a view from above of a curved stretch of a conveyor belt using the first preferred embodiment of the link according to this invention;

Figure 1 D is a view from above of a rectilinear stretch of the conveyor belt using the first preferred embodiment of the link according to this invention;

- Figure 1E is a perspective view of the assembling between links of the first preferred embodiment of the link according to this invention;

Figure 2 is a plan view from above of the first preferred embodiment of the link according to this invention;

Figure 3 is a front view of the first preferred embodiment of the link; - Figure 4 is a side view of the first preferred embodiment of the link;

Figure 5 is a plan view from below of the first preferred embodiment of the link;

Figure 6A is a perspective view from above of a second preferred embodiment of the link according to this invention;

- Figure 6B is a perspective view from below of the second preferred embodiment of the link according to this invention;

Figure 6C is a view from above of a curved stretch of a conveyor belt using the second preferred embodiment of the link according to this invention;

- Figure 6D is a view from above of a rectilinear stretch of the conveyor belt using the second preferred embodiment of the link according to this invention;

Figure 6E is a perspective view of the assembling between links of the second preferred embodiment of the link according to this invention; - Figure 7 is a plan view from above of the second preferred embodiment of the link according to this invention; Figure 8 is a front view of the second preferred embodiment of the link;

Figure 9 is a side view of the second preferred embodiment of the link;

- Figure 10 is a plan view from below of the second preferred embodiment of the link;

Figures 11A to 11C show in particular the link of the first preferred embodiment highlighting the reference quantities of the link. Detailed description of preferred embodiments of the invention

Figures A to 5 illustrate a first preferred embodiment 12 of the link for a conveyor of the type with articulated links for transporting products in a respective working zone, plant or industrial machine.

This conveyor, in particular, as may be inferred from Figures 1C and 1 D, comprises a respective belt with articulated links which is conveyed along a respective endless path having straight and curved stretches and which has a respective positive stretch for transporting the product and a return stretch, normally extending beneath the positive transport stretch.

Each link 12 of the conveyor is articulated to corresponding adjacent links, respectively longitudinally upstream and downstream of the link 12, and comprises a respective portion 14, which defines the product supporting surface, and a portion 16 defining means for articulation to the adjacent links of the conveyor.

More specifically, the portion 14 for supporting the product is located, in particular in the positive feed stretches, above, that is outside the closed- loop path of the belt, whilst the articulation portion 16 is located below the supporting portion 14 of the product, that is, inside it.

More specifically, the respective product supporting portion 14 comprises a first and a second plurality of protrusions, respectively 20 and 30, extending longitudinally towards opposite and adjacent links of the conveyor. As illustrated, the protrusions 20, 30 are separated from each other by corresponding longitudinal gaps, or indentations, 21 , 31 configured to receive the corresponding protrusions of the longitudinally adjacent links of the conveyor.

The second plurality of protrusions 20, on a respective longitudinal side of the link, are longitudinally offset with respect to the protrusions 30, which are provided on the opposite side of the same link.

In this first preferred embodiment, the link, in particular the product supporting portion 14 thereof, has a configuration which is symmetrical about the longitudinal centre line "M" of the same link.

As illustrated, in practice, the first plurality of longitudinal protrusions 30, that is, those facing towards a respective adjacent link upstream, according to the normal feed direction of the conveyor, comprise a respective central protrusion 32 and respective and opposite first and second lateral protrusions 34, 34.

Advantageously, between the central protrusion 32 and the respective lateral protrusion of 34, 34, there are corresponding first and second intermediate protrusions 36, 38, respectively outer and inner, that is, adjacent to the respective lateral protrusion 34, 34 and adjacent to the central protrusion 32.

In this way, there is a configuration of the protrusions which is quite dense and such as to define minimum spaces between the links with obvious advantages in terms of the risk of operators inserting pieces or parts of pieces between the links, or insertion of the fingers or other parts of the operators for monitoring the conveyor.

Accordingly, the second plurality of protrusions 20, that is, those which face towards a respective and adjacent link downstream of the conveyor, according to the normal feed direction of the conveyor, comprise first and second central protrusions 22, 22 and a first and a second end protrusion 24, 24, which are located at the lateral ends of the supporting portion 14, that is, at the transversal ends of the supporting portion 14 which are opposite each other.

Advantageously, the protrusions 20 also comprise between the central protrusions 22, 22 and the end protrusions 24, 24, respective first and second intermediate protrusions 26, 26 and 28, 28, respectively outer and inner, or adjacent respectively to the corresponding end protrusion 24, or corresponding to the central protrusion 22.

In this way, there is a configuration of the protrusions which is sufficiently dense to define minimum spaces between the links with obvious advantages in terms of the risk of operators inserting pieces or parts of pieces between the links, or insertion of the fingers or other parts of the operators for monitoring the conveyor.

Further advantageously, the respective intermediate protrusion, in particular the outer and/or inner protrusion 26, 28, of the second plurality of protrusions 20, extends longitudinally beyond the corresponding lateral end protrusion 24 and/or the corresponding central protrusion 22.

In practice, the end, or transversal end face, 261 , 281 , of the intermediate protrusions 26, 28 is positioned longitudinally, in the direction of the respective and opposite adjacent link, beyond the end, or transversal end face, 241 of the lateral end protrusion 24, and beyond the end, or transversal end face, 221 of the corresponding central protrusion 22.

In this way, there is a large covering of the spaces between the links at the intermediate zones of the two transversal half-parts of the supporting plate 14.

Advantageously, the first and second outer and inner intermediate protrusions 26, 28 of the second plurality of protrusions 20 have respective longitudinal ends 261 , 281 , which are transversely paired or substantially paired with each other.

In this way, it is possible to obtain a large reduction of the spaces between the links at the intermediate zone of the two transversal half-parts of the supporting plate 14 of the products.

Also, the respective lateral end protrusion 24, of the second plurality of protrusions 20, extends longitudinally beyond the corresponding central protrusion 242 of the plurality of protrusions 20.

As illustrated, the central protrusion 32 of the first plurality of protrusions 30 extends longitudinally beyond the corresponding longitudinal protrusions, respectively 34, 34, 36, 36, 38, 38 of the selfsame first plurality of protrusions 30.

Advantageously, the respective outer intermediate protrusion 36, the first plurality of protrusions 30, extends longitudinally beyond the corresponding lateral protrusion 34 and/or the corresponding inner intermediate protrusion 38 in particular, as illustrated, beyond both the lateral protrusion 34 and the inner intermediate protrusion 38.

In turn, the inner intermediate protrusion 38 of the first plurality of protrusions 30 extends longitudinally beyond the corresponding lateral protrusion 34.

In practice, as illustrated, the respective protrusions of the first plurality of protrusions 30, have a main central protrusion 32 having a corresponding transversal face, or end, 321 , which is positioned in the direction of the opposite and adjacent link of the conveyor, beyond the transversal end faces, or end, 341 , 361 , 381 of the other protrusions 34, 36, 38 of the supporting portion 14, which are located on the same side of the latter. Also, the outer intermediate protrusion 36 has the respective transversal end surface, or end, 361 , which is longitudinally positioned, in the direction of the opposite and adjacent link, beyond the end, or transversal face, 381 of the inner intermediate protrusion 38, as well as beyond the end, or transversal face 341 of the corresponding lateral protrusion 34.

Also, the transversal end face, or end, 381 of the inner intermediate protrusion 38 is longitudinally positioned, in the direction of the opposite and adjacent link, beyond the end, or transversal end face 341 of the corresponding lateral protrusion, 34.

The central protrusions 22, 22 of the second plurality of protrusions 20 have respective transversal end faces 221 , 221 which are inclined and convergent on each other in the direction of the opposite longitudinal end of the link, that is, convergent in the normal feed direction of the conveyor. Advantageously, the indentations for insertion of the protrusions of opposite and adjacent link at the second plurality of protrusions 20 comprise a large central indentation 21 , which is provided between the central protrusions 22, 22, and the corresponding lateral indentations 23, 23, which are provided between the corresponding lateral protrusions 24 and the outer intermediate protrusions 26.

Also, advantageously, the indentations for insertion of the protrusions of the opposite and adjacent link at the second plurality of protrusions 20 comprise respective first 25 and second intermediate indentations 27, respectively outer and inner, which are respectively provided between the corresponding central protrusion 22 and the respective inner intermediate protrusions 28, and between the respective outer and inner intermediate protrusions 26, 28.

Also, advantageously, the indentations for insertion of the protrusions of the adjacent link at the first plurality of protrusions 30 comprise a first and a second central indentation 31 , 31 , which are provided between the central protrusion 32 and the corresponding inner intermediate protrusions 38, 38, as well as lateral end indentations 33, 33, which are provided on the outside of the respective lateral protrusion 34, 34.

Further advantageously, the indentations for insertion of the protrusions of the adjacent link, at the first plurality of protrusions 30, comprise respective first 35 and second intermediate indentations 37, respectively outer and inner, which are respectively provided between the corresponding outer and inner intermediate protrusions 36, 38 and between the respective outer intermediate protrusion 38 and the corresponding lateral protrusion 34.

The indentations at the first and the second plurality of protrusions are defined by a respective bottom face and by lateral longitudinal faces of the protrusions which delimit the respective indentation. More specifically and advantageously, the bottom face 251 of the respective inner intermediate indentation 25 at the second plurality of protrusions 20, extends longitudinally, in the direction of the opposite and adjacent link, beyond the bottom face 211 of the corresponding central indentation 21 and/or the bottom face 271 of the outer intermediate indentation 27 and/or the bottom face 131 of the lateral indentation 23, and preferably, as illustrated, longitudinally beyond each of the bottom walls of the other indentations at the second plurality of protrusions 20. Also, as may be inferred, the bottom face 211 of the corresponding central indentation 21 at the second plurality of protrusions 20, extends longitudinally in the direction of the opposite and adjacent link, beyond the bottom face 271 of the outer intermediate indentation 27 and/or the bottom face 231 of the lateral indentation 23, in particular, as illustrated, it extends longitudinally beyond both of the bottom faces 271 , 231 of these.

Moreover, the bottom face 271 of the outer intermediate indentation 27, at the second plurality of protrusions 20, extends longitudinally, in the direction of the opposite and adjacent link, beyond the bottom face 231 of the respective lateral indentation 23.

Advantageously, the bottom face 311 of the respective central indentation 31 , 31 , at the first plurality of protrusions 30, extends longitudinally, in the direction of the opposite and adjacent link, beyond the bottom face 351 of the inner intermediate indentation 35 and/or the bottom face 371 of the outer intermediate indentation 37 and/or the bottom face 331 of the respective lateral end indentation 33.

More specifically, as illustrated, the bottom face 311 of the respective central indentation 21 , 31 extends beyond the bottom faces 351 , 371 and 331 of the remaining indentations provided at the first plurality of protrusions 30.

Advantageously, the bottom face 351 of the inner intermediate indentation 35, at the first plurality of protrusions 30, extends longitudinally, in the direction of the opposite and adjacent link, beyond the bottom face 371 of the outer intermediate indentation 37 and/or the bottom face 331 of the respective outer lateral indentation 33, in particular of both the bottom faces 371 and 331.

Further, the bottom face 371 of the outer intermediate indentation 37, at the first plurality of protrusions 30, extends longitudinally, in the direction of the opposite and adjacent link, beyond the bottom face 331 of the respective lateral end indentation 33.

As illustrated, the portion 16 for connecting to the other links comprises a wide main head 161, from which extends on the opposite longitudinal side of the link a pair of opposite tabs 162, 162, defining between these an opening for inserting a corresponding head of an adjacent link. The wide main head 161 of the link being designed to be inserted between the tabs of an opposite and adjacent link of the conveyor.

As illustrated, the first plurality of protrusions 30 is provided on the longitudinal side of the articulation end 161 , whilst the second plurality of protrusions 20 is on the longitudinal side of the receiving tabs 162, 162.

Advantageously, at the second plurality of protrusions 20, the respective bottom 211 of the central indentation 21 extends transversely to the longitudinal direction of extension, whilst, respectively, the respective bottoms of the other indentations are inclined at corresponding angles, converging towards the opposite, adjacent link whose protrusions are received by the selfsame indentations.

More specifically, the bottom surfaces 251 , 251 of the inner intermediate indentations, the bottom surfaces 271 , 271 of the outer intermediate indentations and the bottom surfaces 231 , 231 of the lateral indentations have corresponding angles relative to the longitudinal direction.

Advantageously, the bottom faces of the indentations of the first plurality of protrusions 30 are inclined at corresponding angles, converging towards the opposite, adjacent link whose protrusions are received by the selfsame indentations.

More specifically, the bottom surfaces 351 , 351 of the inner intermediate indentations, the bottom surfaces 371 , 371 of the outer intermediate indentations and the bottom surfaces 331 , 331 of the lateral indentations have corresponding angles relative to the longitudinal direction.

The transversal end face of the respective protrusion extends slightly curved, convex towards the opposite and adjacent link, whilst the bottom face of the respective indentation extends slightly curved, concave towards the opposite and adjacent link.

Also, the protrusions have the respective lateral faces converging towards the opposite and adjacent link, defining corresponding indentations diverging accordingly towards the opposite and adjacent link.

The end protrusions 24, 24 of the second plurality of protrusions 20 have corresponding longitudinal parallel sides defining the edges of the link or supporting portion 14.

The supporting portion 14 is in the form of a plate which has a central part 141 , substantially lozenge-shaped, from which the first and second plurality of protrusions extend longitudinally from opposite longitudinal sides of the lozenge-shaped portion.

Transversely to the articulation portion 16, corresponding pins 164 for engaging and sliding extend along respective guide means of the conveyor, in which is inserted a respective pin, in particular made of metal, for articulation to the corresponding link of the conveyor, as will become clearer as this description continues.

Figures 6 to 10 illustrate a second preferred embodiment of the link 112 for the conveyor.

The link 112 of the second preferred embodiment is in the form of a link asymmetrical relative to the longitudinal midline "M" of the link.

The second embodiment of the link is suitable for a conveyor which runs along curves, in the plane of the belt, mainly in a single direction.

This second preferred embodiment of the conveyor or of the link differs from the first in that the protrusions and corresponding indentations, which are provided on a transversal half-part 114' of the supporting portion 114 of the second preferred embodiment, are slightly more protruding, in particular slightly longer, than the corresponding protrusions provided on the other transversal half-part 114".

More specifically, the second preferred embodiment of the link 112 differs from the first preferred embodiment comprising, at the second plurality of protrusions 20, an inner intermediate protrusion 28 of the half-part 114', in particular on the outer side as it moves along the curved stretches, which extends longitudinally beyond the corresponding inner intermediate protrusion 28 of the other half-part 114".

Advantageously, at the second plurality of protrusions 20, the outer intermediate protrusion 26 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding outer intermediate protrusion 26 of the other half-part 114" of the product supporting portion 114.

Further advantageously, at the second plurality of protrusions 20, the lateral end protrusion 24 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding lateral end protrusion 24 of the other half-part 114" of the product supporting portion 1 4.

Further advantageously, at the second plurality of protrusions 20, the outer intermediate protrusion 26 of the half-part 1 4', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding inner intermediate protrusion 28.

Advantageously, at the first plurality of protrusions 30, the inner intermediate protrusion 38 of the half-part 14', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding inner intermediate protrusion 38 of the other half-part 114" of the product supporting portion 114.

Advantageously, at the first plurality of protrusions 30, the outer intermediate protrusion 36 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding outer intermediate protrusion 36 of the other half-part 114" of the product supporting portion 1 4.

Further, at the first plurality of protrusions 30, the lateral protrusion 34 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the lateral protrusion 34 of the other half- part 114" of the product supporting portion 114.

Advantageously, at the first plurality of protrusions 30, the outer intermediate protrusion 26 and/or the lateral protrusion 34, in particular as shown both the protrusions 26 and 34, of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding central protrusion 32.

In this second preferred embodiment of the link, advantageously, at the second plurality of protrusions 20, the bottom face 271 of the outer intermediate indentation 27 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 271 of the outer intermediate indentation 27 of the other half-part 1 4" of the product supporting portion 114.

Further advantageously, at the second plurality of protrusions 20, the bottom face 231 of the lateral indentation 23 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 281 of the lateral indentation 23 of the other half-part 14" of the product supporting portion 14. Advantageously, at the first plurality of protrusions 30, the bottom face 351 of the inner intermediate indentation 35 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 351 of the inner intermediate indentation 35 of the other half-part 114" of the product supporting portion 114.

Moreover, at the first plurality of protrusions 30, the bottom face 371 of the outer intermediate indentation 27 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 371 of the outer intermediate indentation 37 of the other half-part 114" of the product supporting portion 114.

Moreover, at the first plurality of protrusions 30, the bottom face 331 of the lateral end indentation 33 of the half-part 114', in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 331 of the lateral end indentation 33 of the other half-part 114" of the product supporting portion 114.

In this second preferred embodiment of the link, the bottom 311 , 351 , 371 of one or more of the indentations, and in particular of the inner and outer intermediate indentation of the central indentation, of the first plurality of protrusions 30, which are on the half-part 114' in the supporting body 14, in particular the half-part on the outer side in the direction followed by the conveyor as it moves along the curved stretches, are transversal to the longitudinal direction of extension.

Advantageously, in the second preferred embodiment of the link, of the second plurality of protrusions 20, the bottom face 251 of the inner intermediate indentation on the half-part 114', in particular the half-part on the inner side, that is, in the direction followed by the conveyor as it moves along the curved stretches, extends longitudinally beyond the corresponding bottom face 251 of the outer intermediate indentation 25 of the other half-part, or laterally outer part, 114" of the product supporting portion 114.

In practice, both the first and the second preferred embodiments therefore comprise seven longitudinal protrusions and corresponding eight recesses on a respective first longitudinal side or side facing the link upstream, according to the normal feed direction of the conveyor belt, and eight longitudinal protrusions and corresponding seven recesses, at a second longitudinal side, which is longitudinally opposite the first longitudinal side, that is, at the side which faces towards the link downstream, according to the normal feed direction of the conveyor belt.

It will be understood that it is also possible that it is the second longitudinal side which faces along the feed direction of the belt and, vice versa, the first longitudinal side becomes the one which is facing the direction opposite to the feed direction of the conveyor belt. All could be obtained, for example, by simply reversing the direction of rotation of the corresponding drive means, or motor, of the conveyor belt.

As may be clearly inferred with reference to Figures 1E and 6E, in order to articulate the links of the conveyor with each other, a pin 50, preferably made of metal, is inserted in the corresponding transversal holes 51 and 52 provided in the insertion heads and tabs for receiving the corresponding links.

For locking the articulation pin 50 in position, use is made of a locking pin 55, which is inserted in a corresponding perpendicular housing 60 opening on the inside or bottom of the insertion head, or core 161.

The housing 60 for receiving the locking pin 55 is defined by a wall, preferably cylindrical, which extends perpendicularly and inside of which opens the holes 51 transversely provided in the head, or core, 161 of the lower, or articulation part 16 of the link, for the insertion of the articulation pin 50.

More specifically, the locking pin 55 has a transversal through hole 56 into which the articulation pin 50 inserts. Preferably, as may be inferred from Figures 11A to 11C, the link of the conveyor, in particular both the first and second embodiments, has a width "I" of the upper support portion 14, which is equal to 83 mm.

Also, the link of the conveyor, in particular both the first and second embodiments, has the interval, or longitudinal distance between the axes of the articulation pins of the link to the adjacent links, respectively, upstream and downstream, "p" which is equal to 25.4 mm.

Also, the link of the conveyor, in particular both the first and second embodiments, has the diameter of the articulation pin, preferably made of metal, "d", which is equal to 4 mm.

Also, the link of the conveyor, in particular both the first and second embodiments, has a diameter "D" of the housing 60, receiving the stud 55 for locking the articulation pin 50, which is provided perpendicularly in the end, or core 161 , which is equal to 9 mm.

Although these dimensions of the links are particularly preferred, other dimensions, in particular a width of the upper product supporting portion 14 of the link which is greater than the 83 mm of the first and second embodiment, would also be imaginable.

Also, the link, in particular the first and second preferred embodiment of the link illustrated here, preferably has a distance "h", of the axis of the articulation pin 50 from the lower face of the supporting portion 14 of the product, which is equal to 9.9 mm, and a transversal distance T, between the opposite inner faces of the tabs 162, 162 for receiving the insertion head 161 , which is equal to 15.4 mm.

Preferably, in order to obtain a corresponding conveyor which has a large surface for supporting the product to be conveyed and which at the same time does not require an excessive use of drive power and which is as quiet as possible, advantageously, the ratio between the width "I" of the portion 14 for supporting the product of the link and the interval, or longitudinal distance, "p" between the axes of the articulation pins 50 of the link with the adjacent links, respectively upstream and downstream, is greater than 2.91 and is preferably greater than 2.95, and is still more preferably, greater than 3. This ratio for the first and second preferred embodiments of the link is advantageously equal to 3.27.

Also, preferably, in order to obtain a corresponding conveyor which has a large surface for supporting the product to be conveyed and which at the same time does not require an excessive use of drive power and which is as quiet as possible, advantageously, the ratio between the width "I" of the portion 14 for supporting the product of the link and the diameter "d" of the articulation pin 50 between the links is greater than 17.25 and is preferably greater than 18 and is still more preferably greater than 19. This ratio for the first and second preferred embodiments of the link is advantageously equal to 20.75.

Also, preferably, in order to obtain a corresponding conveyor which has a large surface for supporting the product to be conveyed and which at the same time does not require an excessive use of drive power and which is as quiet as possible, advantageously, the ratio between the width "I" of the portion 14 for supporting the product of the link and the diameter "D" of the housing 60, receiving the lock stud 55 of the articulation pin 50 between the links, which is provided perpendicularly in the articulation end, or core 161 , is greater than 7.25 and preferably greater than 8 and still more preferably greater than 8.45. This ratio for the first and second preferred embodiments of the link is advantageously equal to 9.22.

In practice, the invention provides an articulation portion 16 which has geometrical dimensions which are quite small relative to the width "I" of the upper supporting portion 14 for the product. In this way, a link is obtained which is particularly light and which requires less drive power for the conveyor belt in which it is inserted and which also makes it possible for the conveyor belt to be quieter during use, that is, during the operations for feeding the products.

Preferably, the link, both of the first and second preferred embodiment, has on the supporting portion 14 of the product an insert "I", preferably made of elastomeric material, which allows a better contact with the product conveyed, in particular avoiding sliding of the product conveyed, the insert "I" being preferably made as illustrated in international patent application No. WO2013/128408 in the name of the same Applicant as this invention and which is incorporated herein by reference.

The link thus has a main body, made of moulded plastic material, and a corresponding insert "I", preferably made of rubber or elastomeric material, for engaging the product conveyed, which is shaped to match the product supporting portion 14 of the main body of the link.

As may be inferred from Figures 1C, 1 D, 6C and 6D this configuration of the link, according to the first and second embodiment illustrated above, allows, both in a curved path of the conveyor belt, and in a straight path of the conveyor belt, particularly small spaces between the links of the conveyor to be obtained and advantageously such as to prevent, or reduce as much as possible, any risk of inserting parts of the product conveyed, in particular the portions of corresponding blister packs which contain the product, in particular the pharmaceutical product, as well as the fingers of personnel monitoring the plant or machine in which the conveyor is used.

More specifically, by way of an example, this second preferred embodiment of the link illustrated in Figures 6A to 10 might have a respective supporting plate 14 which has a width of 83 mm, and which is designed to run along curved feed stretches the radius of which can be between 160 mm and 500 mm. More specifically, in this way, in the curved stretches, the distance between the front face of the outermost protrusion 34 of the half-part 114', that is, the most protruding one and which is located on the outer side of the curve, and the bottom face of the corresponding indentation 23 of the adjacent link would between 4.2 mm and 6.0 mm, whilst the distance between the front face of the outermost protrusion 34 of the half-part 114", that is, the less protruding one and which is located on the inner side of the curve, and the bottom face of the corresponding indentation 23 of the adjacent link would between 1.8 mm and 5.5 mm. Also, in the straight stretches, the distance between the front face of the outermost protrusion 34 of the half-part 114' and the bottom face of the corresponding indentation 23 of the adjacent link would be equal to 2.7 mm, whilst the distance between the front face of the outermost protrusion 34 of the half-part 114" and the bottom face of the corresponding indentation 23 of the adjacent link would be equal 5.7 mm. In this way, it is possible to avoid as much as possible the occurrence of crushing and in particular the breaking of conveyed blister packs.

In practice, the link of this second preferred embodiment, illustrated in Figures 6A to 10, is in the form of a link asymmetrical relative to the longitudinal midline "M" having a first and a second half-part 114' and 114" of the respective portion 14, which defines the product supporting surface, which are configured asymmetrical to each other.

More specifically, in the link of the second preferred embodiment, one or more protrusions which are provided on the transversal half-part 114' of the supporting portion 14 protrude more than the corresponding protrusions which are provided on the other transversal half-part 114". The second preferred embodiment of the conveyor is therefore, particularly, designed to run along a conveying path with curves in the plane of the belt, mainly in a single direction. However, by inverting the direction of feed of the belt with articulated links, which may be easily obtained by reversing the position of the belt drive and return heads, a conveyor is obtained which is designed to run along a conveying path with curves in the plane of the belt, according to the other or opposite direction of travel.

In practice, by feeding the belt, of the second preferred embodiment of the conveyor, according to a respective feed direction it is possible to run along curves, in the plane of the belt, mainly in a respective direction of travel, whilst feeding the belt according to an opposite feed direction, which may be easily obtained as indicated above by reversing the position of the belt drive and return heads, it is possible to run along curves, in the plane of the belt, according to the other or opposite direction of travel. More specifically, by positioning in succession, to form a respective path, a first conveyor according to this second preferred embodiment of the conveyor with the links which travel along a respective direction, that is, with the links which have the respective front part (for example, the head 161) facing the feed direction of the belt and a second conveyor, again in accordance with this second preferred embodiment of the conveyor, with the links which travel in the opposite direction, that is to say, with the links having the respective front part (for example, the head 161) facing in the opposite direction to the feed direction of the belt, is possible to define an overall path for feeding the product which may have curves in the plane of the belt, both towards the right and towards the left. All advantageously using always the same type of link and at the same time reducing to a maximum the spaces which are present between the links in the corresponding curved stretches.

It will be understood that in addition to using a conveyor having asymmetrical links according to the second preferred embodiment, any other type of conveyor with asymmetrical links could be similarly used, in particular a conveyor having asymmetrical links as provided in patent application No. BO2012A000093 in the name of the same Applicant as this invention and which, by reference, must therefore be considered as an integral part of this description.

The invention described has evident industrial applications. It would be obvious to one skilled in the art that several changes and modifications can be made to the invention without departing from the spirit and scope of the invention, described in depth above. More specifically, one skilled in the art could easily imagine further embodiments of the invention comprising one or more of the features described herein. It will also be understood that all the details of the invention may be substituted by technically equivalent elements.