This application is a U.S. National Stage Application of PCT International Application No. PCT/1132018/058133 filed on 19 Oct. 2018, which claims priority from the European Patent Application No. 17197387.8 filed on Oct. 2017 and Italian Patent Application No. 102018000006044 filed on Jun. 2018, the entire disclosure of each of the foregoing applications is incorporated by reference.
The invention relates to a device for dispensing items from a stack of nested items, in particular cup lids.
Lid dispensing devices of the type described above are advantageously applied in the field of automatic distribution, where they are mounted inside beverage vending machines in order to provide lids to be coupled to the cups, especially high-capacity cups, for beverages to be drunk “on to go”.
Generally speaking, lid dispensing devices comprise a tower magazine, which is designed to house a stack of nested lids, and a denesting unit, which is arranged at the lower end of the magazine and is configured to detach the lids from the bottom of the stack one by one.
As it is known, lid dispensing devices of the type described above are affected by the problem of being subjected to frequent malfunctioning due to the fact that the lids, as they are relatively deep and have a shaped profile, have a tendency, when they are nested, to get firmly stuck inside one another and to form a stack that is so compact that the separation action of the denesting unit often becomes extremely hard and ineffective.
The object of the invention is to provide a device for dispensing items from a stack of nested items, in particular cup lids, said dispensing device being capable of solving the aforementioned problem.
According to the invention, there is provided a device for dispensing items from a stack of nested items, in particular cup lids, according to the appended claims.
The invention will now be described with reference to the accompanying drawings, which show a non-limiting embodiment thereof, wherein:
The invention will now be described in detail with reference to the accompanying Figures, so as to allow a person skilled in the art to carry it out and to use it. Possible changes to the embodiments described herein will be immediately evident to skilled people and the generic principles described herein can be applied to other embodiments and applications without for this reason going beyond the scope of protection of the invention set forth in the appended claims. Therefore, the invention cannot be considered as limited to the embodiments described and shown herein, but it has to be associated with the widest scope of protection possible in accordance with the principles and the features described and claimed herein.
In
The dispensing device 1 preferably is configured to operate inside a beverage vending machine or a separate module operatively associated with the beverage vending machine, so as to provide the lids to be coupled to the cups used for the beverages, in particular high-capacity cups designed to contain beverages to be drunk “on to go”, for instance American coffee, latte, etc. To this aim, the dispensing device 1 can be automatically operated by a control system of the beverage vending machine so as to pick up the lids 3 from the bottom of the stack 2 and drop them in a removal compartment, which can be accessed by a user from the outside.
According to
Furthermore, the side wall 5 preferably has, on the outside and at a given distance from the rim 6, an annular projection 7, which defines, inside the lid 3, a recess, which, when the lid 3 is connected to a cup, is designed to be engaged, in an interlocking and removable manner, by the free edge of the cup so as to axially constrain the lid 3 to the cup.
According to
The tubular member 9 conveniently is provided with a longitudinal opening 10, which is sized so as to allow an operator to laterally access, with a hand, the magazine 8 during the loading of a new stack 2 of lids 3 so as to accompany the stack 2 downward, keeping the lids 3 compact and correctly oriented.
The dispensing device 1 further comprises a denesting unit 11, which is associated with the magazine 8 and is controlled by an electronic control unit (which is not shown herein) of the beverage vending machine so as to detach a lid 3 from the bottom of the stack 2 housed in the magazine 8 ever time a user's selection requires the supply of a lid 3 to be coupled to the cup with the beverage.
The denesting unit 11 comprises a box-shaped frame 12, which is designed to be fixed inside the beverage vending machine and comprises an upper wall 13 on which the magazine 8 is mounted.
More in detail, the tubular member 9 of the magazine 8 is mounted on the upper wall 13 in a position coaxial to a channel 14, which extends through the box-shaped frame 12 along a substantially vertical axis 15, has a diameter approximately equal to the diameter of the tubular member 9 and defines an output for the lids 3 taken from the magazine 8.
According to
The removable magazine-frame connection is obtained by means of screws 16 distributed about the axis 15 and each having a first end inserted in a respective hole 17 made in the side wall 13 and a second end inserted in a respective longitudinal slot 18 made in the tubular member 9. Alternatively, the screws 16 can be replaced by non-threaded pins.
The screws 16 can be unscrewed from the holes 17 and screwed into other holes 17 depending on the position to be assumed by the longitudinal opening 10. The number and the angular distance of the holes 17 are chosen based on the degree of variability that one wants to give to the angular position of the longitudinal opening 10 about the axis 15. In the example shown, the holes 17 are uniformly distributed about the axis 15 at an angular distance of 45°.
According to a variant which is not shown herein, the screws 16 are integral to the tubular member 9.
The denesting unit 11 further comprises denesting rollers 19, which are arranged inside the box-shaped frame 12 about the channel 14 and are operated by an actuator 20 controlled by the electronic control unit (which is not shown herein) so as to move, as explained more in detail below, from a rest position (
In particular, the denesting rollers 9 are mounted so as to rotate about respective axes 21 parallel to the axis 15 and are controlled so as to move from the rest position to the single release position by means of a rotation by a first angle and in a first rotation direction, and to move from the rest position to the multiple release position by means of a rotation by a second angle, equal to or different from the first angle, and in a second rotation direction opposite to the first direction.
To this aim, the denesting rollers 19 are provided with support elements designed to support the stack 2 in the rest position and in the single release and multiple release positions and with separator elements designed to detach one lid 3 from the bottom of the stack 2 in the single release position and two lids 3 in the multiple release position.
With reference to
In particular, the denesting rollers of a first type (shown in
The shelf 23 is defined by a usually lunula-shaped appendage radially projecting from a lower end of the cylindrical body 22 and delimited, at the top, by a substantially horizontal surface 24.
The denesting roller 19′ further comprises, close to an upper end of the cylindrical body 22, three further support elements defined, from the bottom to the top, by a first-level shelf 25, a second-level shelf 26 and a third-level shelf 27, which lie on respective planes, which are equally spaced apart from one another, are parallel to one another and are perpendicular to the axis 15.
The first-level, second-level and third-level shelves 25, 26 and 27 fulfil the function of supporting the stack 2 in the single release and multiple release positions.
The second-level and third-level shelves 26 and 27 are delimited, at the top, by respective substantially horizontal upper surfaces 28 and 29, extend about the cylindrical body 22 along arcs with the same width and are arranged on top of one another so as to set free, on the cylindrical body 22, an angular sector 30 which is vertically aligned with the shelf 23 and has an angular width comparable to the one of the latter. Both the second-level and the third-level shelves 26 and 27 have respective tapered ends 31, which, as discussed more in detail below, help them be inserted between the rims 6 of the lids 3.
The second-level shelf 26 differs from the third-level shelf 27 in that it is provided with a separator element 32, which is configured to be inserted, when the denesting roller 19′ rotates towards the multiple release position, between the rims 6 of the second last and third last lid 3, so as to progressively separate them until the last and the second last lid 3 of the stack 2, nested together, are detached and dropped downward.
To this aim, the separator element 32 is defined by a curved abutment, which is arranged close to a tapered end 31 of the second-level shelf 26, projects downward from the side of the second-level shelf 26 opposite the upper surface 28 and extends about the cylindrical body 22 along an angularly staggered arc relative to the shelf 23. The separator element 32 is delimited, at the end closest to the tapered end 31, by an inclined plane 33 having the function of encouraging a progressive insertion of the separator element 32 between the rims 6.
The first-level shelf 25 is arranged under the second-level shelf 26, has a tapered end 34 vertically aligned with the tapered end 31 of the second-level shelf 26 farthest from the separator element 32 and extends about the cylindrical body 22 along an arc with a smaller width compared to the second-level and third-level shelves 26, 27.
The first-level shelf 25 has a substantially horizontal upper surface 35 and further comprises a separator element 36, which is configured to be inserted, when the denesting roller 19′ rotates towards the single release position, between the rims 6 of the last and second last lid 3, so as to progressively separate them until the last lid 3 of the stack 2 is detached and dropped downward.
Similarly to the separator element 32, the separator element 36 is defined by a curved abutment, which is arranged close to the tapered end 34, projects downward from the side opposite the upper surface 35, is angularly staggered relative to the shelf 23 and is delimited, at the end closest to the tapered end 34, by an inclined plane 37 fulfilling the function of encouraging the progressive insertion of the separator element 36 between the rims 6.
The separator element 32 and the separator element 36 are angularly staggered relative to one another and are arranged about the cylindrical body 22 in such a way that, during the rotation from the rest position to the single release position, the sole separator element 36 engages the stack 2 and, vice versa, during the rotation in the opposite direction, from the rest position to the multiple release position, the sole separator element 32 engages the stack 2.
The denesting rollers of the second type (shown in
According to a variant which is not shown herein, the denesting rollers 19″ are provided with both separator elements 32 and 36.
According to a further variant which is not shown herein, the denesting rollers 19′ are provided with the sole separator element 36 arranged on the first-level shelf 25 and the denesting rollers 19″ are provided with the sole separator element 32 arranged on the second-level shelf 26.
According to a further variant which is not shown herein, the denesting rollers 19′ and/or the denesting rollers 19″ only have the first-level shelf 25 and the second-level shelf 26, whereas there is no third-level shelf 27.
According to
The operation of the dispensing device 1 will now be described with special reference to
In the stack 2 housed in the magazine 8, the lids 3 are nested in a reverse position relative to their normal use, namely with the bottom wall 4 arranged at the bottom (
In case lids 3 without the projection 7 are used, the peripheral portion of the last lid 3 resting on the shelves 23 is defined by the peripheral portion of the bottom wall 4 of the last lid 3.
Following a control signal of the electronic control unit (which is not shown herein), the actuator 20 is operated so as to rotate the rollers 19′ and 19″ in a counterclockwise direction and by an angle that is wide enough to cause the separator element 36 to be inserted between the rims 6 of the last and second last lid 3 (
During this rotation, the shelf 23 moves to the side, thus stopping acting like a support for the stack 2, which is supported by the first-level, second-level and third-level shelves 25, 26 and 27, which are sized and spaced apart so as to be inserted between the rims 6 of the lids 3 arranged immediately on the last lid 3.
Preferably, the rotation angle from the rest position to the single release position is approximately 120°.
After the last lid 3 has been detached, the rollers 19′ and 19″ are rotated in the opposite direction and brought back to the rest condition. During this rotation, the first-level, second-level and third-level shelves 25, 26 and 27 progressively slip off the rims 6 until the stack 2, no longer supported, slightly moves downward and rests again on the shelves 23 (
The “reset” operating cycle starts from the rest position (
Preferably, the rotation angle from the rest position to the multiple release position is approximately 120°.
After the last two lids 3 have been detached, the rollers 19′ and 19″ are rotated in the opposite direction and brought back to the rest condition.
In order to complete the information given above, it should be pointed out that the denesting rollers 19 are conveniently arranged about the channel 14 grouped in pairs by type (
According to a variant, the rollers 19′ and 19″ can be arranged in alternated positions about the axis 15.
Finally, it should be pointed out that the same functional principle described above, which allows one or more lids 3 to be detached from the bottom of the stack 2, could be reiterated to detach three or more nested lids 3, for example in case the “reset” cycle described above does not end with the detachment of the last two lids 3.
In order to detach, for instance, the last three nested lids 3, the denesting rollers 19′ and/or 19″ need to have a third separator element arranged on the third-level shelf and located downstream, in the direction of rotation towards the multiple release position, and angularly staggered relative to the separator element 32 of the second-level shelf 26.
Number | Date | Country | Kind |
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17197387 | Oct 2017 | EP | regional |
102018000006044 | Jun 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/IB2018/058133 | 10/19/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2019/077564 | 4/25/2019 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
1634566 | Wessman | Jul 1927 | A |
1907714 | Benson | May 1933 | A |
2721002 | Smith | Oct 1955 | A |
3454987 | Edwards | Jul 1969 | A |
3741410 | Henschke et al. | Jun 1973 | A |
3862702 | Johnson | Jan 1975 | A |
3932978 | Kinney | Jan 1976 | A |
3958720 | Anderson | May 1976 | A |
4044896 | Reinecke | Aug 1977 | A |
4618073 | Bartfield | Oct 1986 | A |
7270248 | Schroeder | Sep 2007 | B2 |
8438820 | Malavenda | May 2013 | B1 |
10395464 | Van Den Driessche | Aug 2019 | B2 |
10529165 | Marquis | Jan 2020 | B2 |
20070284388 | Liao | Dec 2007 | A1 |
20110101017 | Schroeder | May 2011 | A1 |
Number | Date | Country |
---|---|---|
1575006 | Sep 2005 | EP |
2173777 | Oct 1986 | GB |
2008141396 | Nov 2008 | WO |
2017174992 | Oct 2017 | WO |
Entry |
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International Search Report and Written Opinion from International Application No. PCT/IB2018/058133 dated Dec. 17, 2018. |
Number | Date | Country | |
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20200283244 A1 | Sep 2020 | US |