US20160304226A1

US20160304226A1 - Packaging device

Info

Publication number: US20160304226A1
Application number: US15/102,525
Authority: US
Inventors: Antonio ROSSINI
Original assignee: Individual
Current assignee: Scolaro Mauro
Priority date: 2013-12-13
Filing date: 2014-12-11
Publication date: 2016-10-20
Also published as: EP3079991B1; WO2015086764A1; ES2671131T3; ITMI20132079A1; EP3079991A1

Abstract

A packaging device, particularly for vacuum packaging, and particularly for packaging trays containing food products, which comprises a heat-sealing and cutting station for heat-sealing a film on the edge of a tray and for cutting the film, the device further comprising a supporting surface that comprises a plurality of receptacles that accommodate a plurality of dies which can have different dimensions and/or formats in order to accommodate trays of different dimensions and/or formats, the supporting surface being actuatable in order to move one of such dies at the heat-sealing and cutting station.

Description

The present invention relates to a packaging device, particularly for vacuum packaging, and particularly for packaging trays containing food products or the like.
Currently in the sector of packaging food trays, heat-sealing machines are known which perform, generally in vacuum bells or in a controlled atmosphere, the heat-sealing of a film on the edge of a tray containing the food product and then trim the film that has been heat-sealed on the edge of the tray, by way of a die punch or other cutting means. In the above heat-sealing operation, the tray is usually accommodated in a lower die, and an upper heat-sealing plate, with substantially identical shape and dimensions to those of the tray to be heat-sealed, is brought proximate to and pressed against the edges of the tray, so that the film interposed between the tray and the upper plate is heat-sealed at the edges of the tray.
Such conventional machines are not devoid of drawbacks, including first of all the fact that they are dedicated machines for a specific type of tray, in terms of dimensions and/or format, and therefore are difficult to modify. In particular, in order to be able to work on trays of different dimensions and/or formats it is necessary for an operator to intervene and substitute at least the lower die, and usually the heat-sealing plate as well, in order to be able to adapt it to the specific tray being processed.
Such conventional machines are therefore rather inflexible in use. Furthermore, the complex substitution, performed by hand, of the die and of the heat-sealing plate requires an extended machine shutdown, which entails unwanted increases in cost.
The aim of the present invention consists in providing a packaging device that overcomes the limitations of the known art, by making it possible to process food trays of various different formats and/or dimensions.
Within this aim, an object of the present invention is to provide a packaging device that is particularly simple in operation, and which can be used by an operator with no special training.
Another object of the invention consists in providing a packaging device that makes it possible to avoid unwanted machine shutdowns and “dead” times for the substitution of the die and of the heat-sealing plate.
Another object of the invention consists in providing a packaging device that is capable of offering the widest guarantees of reliability and safety in use.
This aim and these and other objects which will become better apparent hereinafter, are achieved by a packaging device, comprising a heat-sealing and cutting station for heat-sealing a film on the edge of a tray and for cutting said film, characterized in that it comprises a supporting surface that comprises a plurality of receptacles that accommodate a plurality of dies, said dies having different dimensions and/or formats in order to accommodate trays having different dimensions and/or formats, said supporting surface being actuatable in order to move one of said dies at said heat-sealing and cutting station.

Further characteristics and advantages of the invention will become better apparent from the detailed description of a preferred, but not exclusive, embodiment of a packaging device, which is illustrated by way of non-limiting example with the aid of the accompanying drawings wherein:

FIG. 1 is a perspective view of an embodiment of a packaging device, according to the invention;

FIG. 2 is a perspective view of some components only of the packaging device shown in FIG. 1;

FIG. 3 is a sectional side view of the packaging device shown in FIG. 1, in a configuration for beginning work;

FIG. 4 is an enlarged detail of part of FIG. 3;

FIG. 5 is a sectional side view of the packaging device shown in FIG. 1, in a configuration for generating the vacuum;

FIG. 6 is a sectional side view of the packaging device shown in FIG. 1, in a configuration for heat-sealing and cutting;

FIG. 7 is an enlarged detail of part of FIG. 6;

FIG. 8 is a sectional side view of the packaging device shown in FIG. 1, provided with a measurement station;

FIG. 9 is a view from above of the measurement station shown in FIG. 8;

FIG. 10 is a front elevation view of the measurement station shown in FIG. 8;

FIG. 11 shows a die belonging to the heat-sealing and cutting station of the packaging device, according to the invention;

FIGS. 12 and 13 show the die in FIG. 11, in a side elevation view, in two different working positions.

With reference to the figures, the packaging device, generally designated by the reference numeral 1, comprises a heat-sealing and cutting station 3 for heat-sealing a film 5 on the edge of a tray 7, and for cutting the film 5, once heat-sealed to the edge of the tray 7.
According to the invention, the packaging device 1 comprises a supporting surface 9 that comprises a plurality of receptacles 11 that accommodate a plurality of dies 13. The dies 13 can have different dimensions and/or formats in order to accommodate trays 7 of different dimensions and/or formats. The supporting surface 9 is actuatable in order to move one of the dies 13 at the heat-sealing and cutting station 3. In this manner, at the heat-sealing and cutting station 3, the tray 7 is accommodated in the corresponding die 13 for the execution of the operations of heat-sealing and cutting the film 5.
Advantageously, the supporting surface 9 can be a rotating table, the rotation of which is such as to place one of the dies 13 at the heat-sealing and cutting station 3. In particular, as illustrated in the accompanying figures, the rotatable supporting surface 9 comprises three receptacles 11, one for each die 13. The rotation of the supporting surface 9 therefore makes it possible to place a designated die 13 at the heat-sealing and cutting station 3.
The packaging device 1 can comprise means 31 for conveying the trays 7 from a station for feeding the trays 7 to the die 13 that is accommodated in the supporting surface 9 that is arranged at the heat-sealing and cutting station 3.
The conveyor means 31 comprise rods 35, which are advantageously actuated by a motorized chain 37 and are adapted to slide over a sheet metal surface 39. The trays 7 are pushed by the rods 35 along the sheet metal surface 39 to the heat-sealing and cutting station 3 where the correct die 13 is already arranged. In particular, the sheet metal surface 39, which is arranged at a height that is greater than that at which the die 13 is arranged at the heat-sealing and cutting station 3, comprises a hole that faces the die 13. In this manner, the tray 7 is pushed by the rods 35 into the hole and falls into the die 13.
Furthermore the packaging device 1 can comprise a station 15 for measuring the dimensions and/or format of the tray 7, arranged upstream of the heat-sealing and cutting station 3, as shown in FIGS. 8, 9 and 10.
The detection of the extent of the dimensions and/or format of the tray 7 determines the selection of one of the dies 13, so that the preselected die 13 is placed at the heat-sealing and cutting station 3. The preselected die 13, once at the heat-sealing and cutting station 3, will receive the corresponding tray 7 for the execution of the operations of heat-sealing and cutting of the film 5, as explained hereinafter. In the measurement station 15 there are advantageously sensor means 41 that are adapted to measure the dimensions of the tray 7.
The measurement station 15 advantageously comprises centering means 33 for centering the tray 7 with respect to the corresponding die 13. The centering means 33 can comprise a pair of centering elements 43, which are arranged at the sides of the tray 7. The centering elements 43 are moved by a motor 45 that actuates a toothed wheel, which moves a pair of toothed racks 47 with which the centering elements 43 are connected.
The sensor means 42 advantageously comprise a laser/photocell pairing and can be advantageously connected to the centering elements 43, so that the operations of centering and measuring the tray 7 are performed substantially simultaneously. The measurement of the tray 7, in terms both of width and of length, makes it possible to select the correct die 13, to determine the length of the advancement of the rods 35 in order to ensure that the tray 7 falls correctly into the hole present in the sheet metal surface 39, thus taking up position correctly in the die 13, and to determine the length of the advancement of the film 5 to be unwound in order to completely cover the tray 7, while limiting needless waste of the film 5.
The heat-sealing and cutting station 3 advantageously comprises a vacuum bell 17 that comprises, internally, heat-sealing means 19 and cutting means 21 of the film 5. Furthermore, the vacuum bell 17 is adapted to contain one of the dies 13, and in particular the die 13 that is in each instance arranged in the heat-sealing and cutting station 3.
In particular, the vacuum bell 17 is defined by an upper chamber 23 and by a lower chamber 24, which can be locked by mutual superimposition. The lower chamber 24 is at least partially defined in the supporting surface 9. In particular, there is a lower chamber 24 for each die 13, while there is one single upper chamber 23 at the heat-sealing and cutting station 3. The rotation of the supporting surface 9 is in fact adapted to place not just the die 13, but also the corresponding lower chamber 24, at the heat-sealing and cutting station 3.
Advantageously the heat-sealing means 19 are connected kinematically to cutting means 21 for cutting the film 5, so that the movement of the heat-sealing means 19 determines the actuation of the cutting means 21. Preferably the heat-sealing means 19 comprise a heat-sealing plate 25 that is adapted to come into abutment against the film 5 in order to heat-seal it on the edges of the tray 7.
Each die 13 further comprises a surface 49 that can move vertically and is adapted to support the tray 7, and to move the tray 7 vertically, as described hereinafter.
The packaging device 1 advantageously comprises lever means 27 adapted to connect kinematically the movement of the above mentioned heat-sealing means 19, and specifically of the heat-sealing plate 25, to the actuation of the cutting means 21, so that the descent of the heat-sealing plate 25 determines the rise of the cutting means 21 beyond the heat-sealing surface 29 and the consequent cutting of the film 5.
As shown in FIGS. 4, 7, 11, 12 and 13, the cutting means 21 comprise at least one blade 51, which runs around the entire perimeter of the die 13. The lever means 27 comprise a lever 53 pivoted with respect to a fulcrum 55 which is integral with the supporting surface 9. The lever 53 comprises, at a first end 57, a first slot 59, and, at a second end 61, a second slot 63. The first slot 59 engages with a first pivot 65, which is integral with the blade 51, while the second slot 63 engages with a second pivot 67, which is integral with a perimetric frame 69 which is external to the die 13. Lowering the perimetric frame 69 entails, by way of the above mentioned lever means 27, raising the blade 51. As is clear from FIG. 7, lowering the perimetric frame 69 is done by way of the pressure that the heat-sealing plate 25 exerts, by way of its outer rim 71, on the perimetric frame 69 proper. Furthermore, the perimetric frame 69, or the outer rim 71 of the heat-sealing plate 25, or both, can comprise a rubber element 73, which helps to lock the film 5 in place during the raising of the blade 51 and the consequent cutting of the film 5. When the heat-sealing plate 25 stops exerting the pressing action on the perimetric frame 69, by way of the springs 75 it tends to return to its inactive, raised position, and consequently the blade 51 descends below the heat-sealing surface 29.
The dies 13 are advantageously replaceable if necessary. In fact each receptacle 11 defined in the supporting surface 9 can accommodate dies 13 of different dimensions and/or formats.
Operation of the packaging device 1 is as follows.
The trays 7 are fed, by a feeding station, not shown, to the sheet metal surface 39 and are pushed by the rods 35 toward the measurement and centering station 15, where the measurements of the tray 7 are taken, so as to select, from among the dies 13 present in the supporting surface 9, the correct one for the specific tray 7, and thus place it at the heat-sealing and cutting station 3, by way of the rotation of the supporting surface 9. At the same time, on the basis of the measurement of the tray 7, the rods 35 are made to advance so as to push the tray 7 to the center of the preselected die 13 and the necessary length of film 5 is unwound to cover the upper opening of the tray 7.
Once the selected die 13, with the corresponding lower vacuum chamber 24, is arranged in the heat-sealing and cutting station 3, the tray 7 is made to advance so as to be arranged on the movable surface 49.
The film 5 is conveniently made to slide under the upper vacuum chamber 23.
At this point, the upper vacuum chamber 23 is lowered, closing onto the lower chamber 24, and, in its lowering, also moving the film 5, which comes up against the opening of the tray 7 to be covered. By way of the vacuum ducts 77 and 79 the vacuum bell 17, defined by the two chambers 23 and 24 which are now hermetically tight, is placed under a vacuum, as illustrated in FIG. 5. Through the vacuum ducts 77 and 79 it is also possible to send adapted gases that are adapted to maintain the content, generally food, of the trays 7. The upper chamber 23, the lower chamber 24, and the internal volume of the tray 7 are all affected by the vacuum or gases.
The movable surface 49 is lowered vertically, leaving the tray 7 resting, by way of its lateral edges 81, on a supporting frame 83 of the tray 7 which is defined in the die 13.
Once the conditions of vacuum have been created, the heat-sealing plate 25 descends toward the film 5, so that the innermost portion 85 of the heat-sealing plate 25 comes into abutment against the edge 81 of the tray 7, supported by the supporting frame 83, with the film 5 interposed, so that the film 5 is heat-sealed to the edges of the tray 7.
At the same time, the heat-sealing plate 25 impacts on the rubber element 73 of the perimetric frame 69, defeating the elastic force exerted by the springs 75, and actuating the lever means 27 so that the further descent of the perimetric frame 69 causes the rising of the blade 51 and thus the cutting of the film 5, which in the meantime is kept in place by the rubber elements 73.
Once the heat-sealing and the cutting of the film 5 are complete, the upper chamber 23 ascends upwardly, taking the heat-sealing plate 25 with it. The movable surface 49 rises vertically, and lifts the tray 7, which has just been sealed, so as to detach it from the supporting frame 83 and bring it to a position that enables it to be pushed out from the heat-sealing and cutting station 3 by way of the thrust impressed by the rods 35.
In practice it has been found that the packaging device, according to the present invention, achieves the intended aim and objects in that it makes it possible to process food trays of various different formats and/or dimensions.
Another advantage of the packaging device, according to the invention, consists in that it is capable of automatically recognizing the dimensions and/or the format of the trays, in order to select the correct die.
Another advantage of the device, according to the invention, consists in that it requires a vacuum bell of limited size.
Another advantage of the device, according to the invention, consists in that it makes it possible to easily change the dies, so as to render the machine flexible for use with various types of trays.
Another advantage of the device, according to the invention, consists in that it reduces the waste of film, in that it has a measurement station that is capable of establishing the exact length of film to be unwound, on the basis of the dimensions and/or the format of the tray.
Another advantage of the device, according to the invention, consists in that it is substantially mechanical, and is therefore more reliable.
The packaging device, thus conceived, is susceptible of numerous modifications and variations, all of which are within the scope of the appended claims.
Thus, for example, it is possible that the dies be moved in a rectilinear direction instead of being moved along a circular path. In this case the supporting surface would be a linear element instead of a rotating table.
Moreover, all the details may be substituted by other, technically equivalent elements.
In practice the materials employed, provided they are compatible with the specific use, and the contingent dimensions and shapes, may be any according to requirements.
The disclosures in Italian Patent Application No. MI2013A002079 from which this application claims priority are incorporated herein by reference.
Where technical features mentioned in any claim are followed by reference signs, those reference signs have been included for the sole purpose of increasing the intelligibility of the claims and accordingly, such reference signs do not have any limiting effect on the interpretation of each element identified by way of example by such reference signs.

Claims

1-10. (canceled)

11. A packaging device, comprising a heat-sealing and cutting station for heat-sealing a film on an edge of a tray and for cutting said film, and comprising a supporting surface that comprises a plurality of receptacles that accommodate a plurality of dies, said dies having different dimensions and/or formats in order to accommodate trays having different dimensions and/or formats, said supporting surface being actuatable in order to move one of said dies at said heat-sealing and cutting station.

12. The packaging device according to claim 11, wherein said supporting surface is a rotating table, the rotation of said rotating table placing one of said dies at said heat-sealing and cutting station.

13. The packaging device according to claim 11, further comprising a measurement station for measuring dimensions and/or format of said tray, arranged upstream of said heat-sealing and cutting station, the detection of the measurement of the dimensions and/or of the format of said tray causing the selection of one of said dies.

14. The packaging device according to claim 11, wherein said heat-sealing and cutting station comprises a vacuum bell, which comprises heat-sealing means and means for cutting said film, said vacuum bell being adapted to contain one of said dies.

15. The packaging device according to claim 14, wherein said vacuum bell is defined by an upper chamber and a lower chamber, which can be locked by mutual superimposition, said lower chamber being at least partially defined in said supporting surface.

16. The packaging device according to claim 14, wherein said heat-sealing means are adapted to abut against said film in order to heat-seal said film on the edges of said tray, said heat-sealing means being connected kinematically to cutting means for cutting said film, so that the movement of said heat-sealing means causes the actuation of said cutting means.

17. The packaging device according to claim 16, further comprising lever means adapted to connect kinematically said heat-sealing means to said cutting means, so that a descent of said heat-sealing means causes a rise of said cutting means beyond the heat-sealing surface and the cutting of said film.

18. The packaging device according to claim 11, further comprising means for conveying said trays from a station for feeding said trays to said die accommodated in said supporting surface located at said heat-sealing and cutting station.

19. The packaging device according to claim 13, wherein said measurement station comprises centering means for centering said tray with respect to the corresponding die.

20. The packaging device according to claim 11, wherein said dies are replaceable if necessary.