The present invention relates to a unit for applying glue on labels to be cold-glued onto relative containers and for conveying such labels applied with glue.
Labelling machine are used to apply labels to articles of all sorts, particularly to containers for many liquid or powder products including not only food products such as milk, fruit juices or beverages in general, but also mineral lubricating or detergent oils.
Very briefly, labelling machines of the known type comprise a storage for labels to be applied onto respective containers, a unit for applying the glue onto the label and for conveying label with glue thereon towards respective containers, and a gluing group for cold-gluing the labels onto respective containers.
In greater detail, the unit comprises:
The first carousel is driven in rotation in a first direction by a motor while the roll and the second carousel are driven in rotation by the first carousel in a second direction which is opposite to the first direction.
Alternatively, the second carousel may be driven in rotation by a further motor.
More precisely, the motor drives in rotation a first gear which engages with two gear trains operatively connected respectively to the roll and to the second carousel.
Each gear train comprises a plurality of gears in order to ensure a proper reduction ratio between the angular speed of the first carousel and the angular speed of the roll and of the second carousel.
Furthermore, each gear train must perforce comprise at least an idler gear in order to ensure that the roll and the second carousel rotate in the second direction.
A need is felt in the industry to reduce the number of components necessary to transmit the motion between the first carousel and the second carousel, and between the first carousel and the roll, so as to reduce manufacturing costs, maintenance costs and the overall noise of the unit.
Furthermore, a need is felt in the industry to manufacture an unit which may easily and economically realize different positions of the roll and of the second carousel with respect to the first carousel.
Finally, each kind of labelling machine has a specific pitch between the containers and a specific number of hooks. On the contrary, the number of paddles is generally constant.
Therefore, the transmission ratio between the first and the second carousel depends on the pitch between the containers.
A need is felt in the industry to economically change the transmission ratio between the first and the second carousel.
It is an object of the present invention to provide a unit for applying glue on labels to be cold-glued onto relative containers and for conveying such labels applied with glue designed to meet at least one of the above-identified requirements in a straightforward, low-cost manner.
According to the present invention, there is provided a unit for applying glue on labels to be cold-applied onto relative containers and for conveying such labels applied with glue as claimed in claim 1.
In the following a preferred, non-limiting embodiment of the present invention will be described by way of example with reference to the accompanying drawings, in which:
Number 1 in the
More precisely, the locution “cold-applied” means that labels 2 are applied onto relative containers 3 at a temperature, which ranges about 20-25 centigrade degrees.
Container 3 may be pots, cans and the like.
Furthermore, containers 3 may be filled not only with food products such as milk, fruit juices or beverages in general, but also with mineral lubricating or detergent oils.
Unit 1 is adapted to be incorporated in a labelling machine (not shown). Labelling machine substantially comprises (
In greater detail, the not shown conveyor for conveying containers 3 substantially comprises a central wheel and a plurality of peripheral support element adapted to support respective containers 3.
More precisely, unit 1 cold-glues labels 2 onto relative containers 3 at station P1. Containers 3 are then rotated about their own axes immediately downstream from station P1 so as to facilitate the adhesion of relative labels 2 thereon.
Unit 1 substantially comprises:
Very briefly, each paddle 7 subsequently:
Afterwards, each hook 10 of carousel 8 receives a relative label 2 from a relative paddle 7, conveys relative label 2 along an arc-shaped path R and cold-glues such label 2 onto a relative container 3 at station P1.
Carousel 6 substantially comprises (
Unit 1 also comprises a stator 59 surrounding columns 24 and a fixed cam 29 (
Columns 24 extend along respective axes C and are rotatably fitted about respective axes C to plate 23. More precisely, each column 24 is fitted to a flange 25 which may rotate relative to plate 23 about respective axis C.
More precisely, columns 24 rotate with respect to plates 23 and base 22 about respective axes C as carousel 6 rotates about axis A.
Paddles 7 are fitted to relative columns 24 and may pivot integrally with relative columns 24 with respect to wheel 21 about relative axes C.
Each paddle 7 extends parallel to axis C, and its section in a plane orthogonal to axis C is delimited by two circular arcs 26 and two segments 27 radial to respective arcs 26 and extending between arcs 26.
Carousel 6 drives in rotation paddles 7 along a path Q which comprises:
As they move along path Q, the interaction between cam 29 and followers causes the rotation of relative paddles 7 about respective axes C. Such rotation arranges paddles 7 in the correct position with respect roll 5 at station Q1, storage 4 at station Q2, and corresponding hook 10 of carousel 8 at station Q3.
Carousel 8 substantially comprises:
Unit 1 also comprises a fixed cam 38 which cooperates with a plurality of followers 37 of respective gripping elements 32.
Each gripping element 32 substantially comprises (
In particular, each hook 10 may rotate about a respective axis F (
Gripping elements 32 are driven in rotation by carousel 8 along path R, which extend from a picking station R1 to a release station R2.
More precisely, hooks 10 of gripping elements 32 are arranged in the second position in the portion of the path R extending from station R1 to station R2, with reference to the rotation sense of carousel 8 shown in
On the contrary, hooks 10 of gripping elements 32 are arranged in the first position in the portion of the path R extending from station R2 to station R1, with reference to the rotation sense of carousel 8.
As shown in
Gripping elements 32 are hold in the respective first positions by respective springs 39 and are moved in the respective second positions through the interaction of cam 38 with respective followers 37.
In particular, each gripping element 32 receives a relative label 2 from respective paddle 7 at picking station R1 and cold-applies relative label 2 onto respective container 3 at release station R2.
Picking station R1 substantially coincides with station Q3 while release station R2 substantially coincides with station P1.
Advantageously, unit 1 comprises a first belt 40 operatively connected to carousel 6 and to roll 5, and a second belt 50 operatively connected to carousel 6 and to carousel 8 (
More precisely, carousel 6 comprises a gear 45 rotatable about axis B and operatively connected to motor 20, and unit 1 comprises a couple of gears 46, 47 meshing with gear 45.
Furthermore, unit 1 comprises:
In particular, pulleys 41, 42, 51, 52 are toothed pulleys.
Belt 40 is wound onto pulleys 41, 42 while belt 50 is wound onto pulleys 51, 52.
Belts 40, 50 are tensioned by respective tightening pulleys 43, 53.
Stator 59 also comprises a one-piece element 58 which defines seats 60, 61, 62 for gears 45, 46, 47. (
In particular, one-piece element 58 comprises a main circular body 70 of axis B and which defines seat 60, and a pair of appendixes 71, 72 which define respectively seats 61, 62. Appendixes 71, 72 extend on opposite lateral sides of body 70 and are external with respect to body 70.
As shown in
Accordingly, gear 46 is on a first side (top side) of axis B and gear 47 is on a second side (bottom side) opposite to first side of axis B.
Furthermore, roll 5 is on the first side of axis B while storage 4 is on the second side of axis B.
In use, motor 20 drives in rotation gear 45 and, therefore, carousel 6 in the first direction (clockwise in
At the same time, gear 45 drives in rotation gear 46 in the second direction (anticlockwise in
In a completely analogous manner, gear 45 drives in rotation gear 47 in the second direction. The rotation of gear 47 causes through belt 50 the rotation of pulleys 51, 52 in the second direction. The rotation of pulley 52 causes the rotation of carousel 8 in the second direction about axis D.
The operation of the unit 1 will be then described with reference to only one paddle 7 and to the relative gripping element 32, hook 10, label 2 and container 3.
In particular, containers 3 are advanced along path P towards applying station P1.
Motor 20 drives in rotation carousel 6 and paddle 7 about axis B and along path Q.
The interaction of cam 29 with the follower associated to paddle 7 causes the rotation of paddle 7 about axis C with respect to wheel 21.
In other words, paddle 7 rotates integrally with wheel 21 about axis B and along path Q, and rotates about axis C relative to wheel 21.
In particular, paddle 7 cooperates with the outer surface of roll 5 at station Q1 so as to be covered with glue, spreads the glue on a first side of frontal label and picks label 2 with glue at station Q2, and releases label 2 to hook 10 at station Q3 which substantially coincides with station R2.
Hook 10 is advanced by conveyor 8 along path R about axis D.
As hook 10 advances along path R, cam 38 cooperates with follower 37 of gripping element 32 to rotate hook 10 about axis F.
More precisely, hook 10 is conveyed in the first position from station R2 to station R1 and in the second position from station R1 to station R2, with reference to the rotation sense of carousel 8.
Hook 10 takes label 2 from paddle 7 at station R2 and conveys label 2 up to station R1.
At station R2, hook 10 is moved to the second position and label 2 is transferred to container 3 which is arranged at station P1.
Container 3 is rotated about its axis at station P1 and the first side of label 2 is pressed by gluing group over the surface of container 3 so as to complete the adhesion of label 2 on the container 3.
With reference to
Unit 1′ is similar to unit 1 and will be disclosed hereinafter only insofar as it differs from the latter; corresponding parts or equivalents of conveying units 1, 1′ will be indicated, where possible, by the same reference numerals.
Unit 1′ differs from unit 1 in that seat 62 houses gear 47, and seat 61 houses gear 46.
Accordingly, gear 47 is on the first side (top side) of axis B and gear 46 is on the second side (bottom side) opposite to first side of axis B.
Furthermore, storage 4 is on the first side of axis B and roll 5 is on the second side of axis B.
From an analysis of the features of unit 1, 1′ made according to the present invention, the advantages it allows to obtain are apparent.
In particular, the rotation in the second direction of motor 20 and carousel 6 is transmitted to the rotation in the first direction of roll 5 and carousel 8 through belts 40, 50.
In this way, there is no need for idler gears to convert a rotation in a first direction into a rotation in the second direction and of a plurality of further gear-trains to achieve high reduction ratios between gear 45 and pulleys 41, 51.
Accordingly, unit 1 provides for high reduction ratios and for the reversal of the rotation direction between gear 45 and roll 5 and between gear 45 and carousel 8 with a reduced number of components. Such reduced number of components results in less maintenance and less noise of the unit 1.
Furthermore, it is necessary to only change the length of belt 50 and the diameter of pulley 51 in order to vary the transmission ratio between carousels 6, 8 and adapt the unit 1 to different values of the pitch between containers 3.
Finally, due to the fact that seats 61, 62 may be indifferently houses either gear 46 or gear 47, roll 5 and carousel 8 may be easily arranged on either one or the other side of carousel 6, without requiring complex mechanical operations.
In other words, unit 1, 1′ is highly flexible with reference to the arrangement of roll 5 and carousel 8 relative to carousel 6.
Finally, it is apparent that modifications and variants not departing from the scope of protection of the claims may be made to unit 1, 1′.
For example, unit 1, 1′ can comprise either only belt 40 or only belt 50.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT2009/000567 | 12/16/2009 | WO | 00 | 8/14/2012 |