The present invention relates to the field of the packaging of objects, such as, for example bottles or other containers. Particularly, the invention relates to a machine for separating sheets of cartons for packaging from a warehouse, typically a well warehouse, in which the cartons are stacked.
In the object packaging line, particularly for bottles or similar containers, various techniques and different types of packaging are used. For example, bottles may be wrapped by a resistant plastic film, typically used for six-bottle packs, or, in cases of pallet having larger dimensions, they may be arranged in a carton tray that will be finally coated, together with the bottles, by a plastic film. In other types of packaging, the bottles are wrapped by a carton band (three or six small-sized bottles) or closed in carton boxes.
Both in the case of manufacturing carton trays and boxes, the packaging machine receives the carton sheets from a warehouse, from which the cartons have to be singularized and withdrawn before being sent to the packaging machine.
In some machines of the prior art, handling of the carton sheets from the warehouse to the transport means, which send them to the packaging machine is carried out automatically by a sucker system that lifts the single carton from the carton stack, translate it above the transport means, and drops it thereupon. Therefore, this system implements a rather complex movement, implying a poor productivity.
In other cases, the stack of cartons is compressed downwardly against a conveyor belt, so that the latter separates the lowermost carton and sends it directly to the packaging machine. However, neither this system is very efficient, moreover when the cartons have smooth surfaces, such that they exert a poor friction on the conveyor belt surface. In these cases, it is likely that the process of separating the cartons into sheets is discontinuous, resulting in a disturbance of the successive packaging stage.
Another problem that is created when it is necessary to change the type of cartons is to empty the warehouse from the cartons with the old size. This operation is often carried out by hand.
The problem faced by the present invention is to provide a machine for separating carton sheets that allows overcoming the drawbacks set forth above.
Such a problem is solved by a machine for separating sheets of cartons as set forth in the appended claims, the definitions of which are an integral part of the present description.
Further characteristics and advantages of the present invention will be more clearly understood from the description of some implementation examples, given herein below by way of illustrative, non-limiting example.
With reference to the figures, the machine for separating cartons into sheets, generally indicated by the number 1, comprises a frame 2 on which, in an operatively contiguous position, a handling station 3 of the cartons C, a warehouse 4 for the cartons C, and a gripping station S of the cartons C are mounted.
The frame 2 extends along a main axis Y forming the handling direction of the cartons C, according to the arrow indicated in
The handling station 3 is arranged upstream along the handling direction of the cartons and comprises a mobile cart 6 along the axis Y. The cart 6 slides along special guides 7 (see
The cart 6 comprises two side edges 8, 8′—comprising sliding means suitable to slide on the guides 7—and a bottom frame 9 joining the two side edges 8, 8′. From the bottom frame 9, a plurality of rods 10 extends, which are arranged parallel to the axis Y, such as to compose on the whole a fork member 11. The rods 10 are spaced apart one from another by a space S, and have a width L (
In the embodiment shown in the
However, in other embodiments, the bottom frame will be a single one, such as for example in machines having lower dimensions.
The warehouse 4 comprises two side edges 12 on which a plurality of rolls 13 is hinged, which are mounted idle and arranged transversally to the axis Y, so as to form a support and sliding surface for the stack of cartons C.
In some embodiments, the roll 13a proximate to the gripping station 5—or one or more different rolls 13 of the warehouse 4—is motorized, so as to translate the cartons C towards the gripping station 5. In such a case, such roll 13a will be operatively connected to a suitable motorization 51.
The rolls 13 are spaced apart so as to create a gap between a roll and the contiguous one.
Below the warehouse 4, a lifting member 14 for the stack of cartons C is arranged. The lifting member 14 comprises a plurality of bars 14a arranged transversally to the axis Y, but offset with respect to the rolls 13, such as to take a position or to be located below the gaps, between a roll and the contiguous one. The number of bars 14a may be the same as or different from that of the rolls 13.
Each bar 14a supports a plurality of resting members 15, for example, T-shaped members, in which, preferably, the T shape is arranged parallel to the axis Y of the machine. However, other shapes will be able to be provided. In any case, the dimensions of the resting members 15 do not exceed the dimensions of the gap between the rolls 13, so as to be able to pass through it during the operative steps that will be described herein below.
The resting members 15 are arranged in an offset position with respect to the rods 10 of the fork member 11. Furthermore, the gap between a resting member 15 and the contiguous one will be larger than the width L of the rods 10 of the fork member 11, so as not to interfere during the loading and unloading step of the cartons C, which will be described herein below.
The bars 14a can be in turn supported on a frame (not shown) arranged at the base thereof, which mutually connects them to form a single member. However, it will be possible, even if less convenient, to keep each bar 14a independent from the other ones.
The lifting member 14 is mobile between a retracted position, in which the resting members 15 are located at the same level, or at a lower level with respect to the rolls 13—in such a manner that the stack of cartons C is supported only by the rolls 13, and it may slide thereon—and an extended position, in which the lifting member 14 engages, by the resting members 15, the stack of cartons C and brings them to a lifted position in which the stack of cartons C is not supported by the rolls 13.
The movement of the lifting member 14 is obtained by means of an actuator (not shown), such as a rotary motor or an electric, pneumatic, or hydraulic linear actuator.
The sheet separator machine of the invention comprises singularization means of a carton C from the stack of cartons. Particularly, the warehouse 4 comprises sucker means 18, 18′ for gripping a carton C from below, from the stack of cartons (
First sucker means 18 comprise a support bar 19 on which a plurality of suction bells 20 is secured. The support bar 19 extends transversally to the axis Y.
The suction bells 20 comprise a body 21, connected to suction means (not shown), and a sucker member 22 having a central hole 23 in flow communication with the inside of the body 21 and thus with said suction means.
As it will be best described herein below, the function of the sucker means 18 is to promote the separation of the carton C located at the bottom of the carton stack.
To this aim, the first sucker means 18 are positioned immediately downstream of the plurality of rolls 13.
Second sucker means 18′, completely similar to the first sucker means 18, can instead be positioned in a suitable position below the rolls 13, such as to cooperate with the first sucker means 18 in separating the carton C from the stack. The arrangement of the second sucker means 18′ will be preferred, even if not strictly required, in case of cartons C having large dimensions.
The sucker means 18, 18′ are mobile between a lowered position and a lifted position. As it will be best described herein below, the top-to-bottom movement of the sucker means 18, 18′ takes place in conjunction with the suctioning of a carton C, and it is responsible for the separation of the latter from the stack.
The support bars 19 of the sucker means 18, 18′ are secured at the two ends thereof to corresponding longitudinal bars 24, 24′ arranged in the proximity of the inner face of the side edges 12 and slidable vertically on guides 30. The longitudinal bars 24, 24′ are connected to corresponding crank mechanisms 25, i.e., a piston rod 25a-crank 25b-system that, in turn, are operatively connected to a motorization 26.
Particularly, in an embodiment, the motorization comprises a drive shaft 27 that extends transversally with respect to the axis Y of the machine and that is connected by motion transmission means 28—for example, a belts 28a and pulleys 28b system—to the crank 25b of the crank mechanisms 25. In this manner, the motorization 26 allows, by the crank mechanisms 25, lowering or lifting the longitudinal bars 24, and thus the sucker means 18, 18′.
The handling station 3 and the warehouse 4 are adjacent and arranged one after the other one, respectively, along the axis Y. Between the handling station 3 and the warehouse 4, a separator 16 is located. The separator 16 comprises a plurality of teeth 17 facing upwardly and mutually spaced apart by a gap, the width of which is larger than the width L of the rods 10 of the fork member 11. The width of the teeth 17 is further less than that of the gap S between the rods 10 of the fork member 11.
The separator 16 is mobile between a retracted position, in which the upper end of the teeth 17 is located below the upper supporting surface of the rods 10, and an extended position, in which the teeth 17 are inserted between the gaps S of the rods 10 and are lifted above the upper supporting surface of the rods 10.
Also the movement of the separator 16 is obtained by means of an actuator (not shown), such as a rotary motor or an electric, pneumatic, or hydraulic linear actuator.
In an embodiment, shown in
The gripping station 5 of the cartons C comprises a cart 36 slidable by suitable rollers 37 on a track 38. In an embodiment, the rollers 37 are mounted below the side edges 39 of the cart 36.
The cart 36—and thus the entire gripping station 5—is longitudinally mobile along the axis Y. The cart 36 performs an alternated motion approaching to and moving away from the warehouse 4. To this aim, the cart 36 is connected by suitable motion transmission systems to a motorization.
In the embodiment shown in
Motorized rolls 41, 42 connected to a suitable motorization 52 are mounted on the cart 36. The motorized rolls 41, 42 are arranged transversally with respect to the axis Y and in an adjacent position to one another, so that a gap substantially corresponding to the thickness of the carton C to be separated into sheets is created therebetween. The first roll 41 is arranged in a lower and offset position along the axis Y with respect to the second roll 42, such as to be located nearer to the warehouse 4 edge.
The first roll 41 rotates counter-clockwise, while the second roll 42 rotates clockwise, such as to grip and drag a carton C, as shown in the
The rolls 41, 42 are gummed. They can be completely coated with an elastic material, such as rubber or synthetic elastomer, or, as shown in the embodiment of the figures, it may have a plurality of gummed bands 43.
Above the rolls 41, 42 and flush with the bottom of the stack of cartons C in the warehouse 4, a separator wedge 44 is located. The separator wedge 44 is composed of a horizontal foil folded downwardly backward so as to create a rounded wedge-shaped profile 45 above the first roll 41.
Downstream of the pair of rolls 41, 42, particularly of the first roll 41, a support surface 46 for the carton C is arranged, which is separated from the machine. Typically, such support surface 46 will end at transport means (not shown) for sending the carton C separated into sheets towards a packaging machine.
Furthermore, a holding edge 47 is secured on the cart 36, the function of which is to hold and level the stack of cartons C present in the warehouse 4. To this aim, the holding edge 47 is located on the upper portion of the side of the cart 36 facing the warehouse 4.
The operation of the machine for separating into sheets according to the invention provides a loading step of the stack of cartons C in the warehouse 4, a step of separating the cartons into sheets, a step of topping up the cartons in the warehouse 4, and optionally a step of unloading the cartons C left in the warehouse 4 (the latter step may be carried out when changing the carton size is desired for a different type of packaging operation).
The loading step of the stack of cartons C is shown in the
A stack of cartons C is provided on the fork member 11 of the handling station 3 (
At this point, the step of separating into sheets may begin, as shown in the
In the embodiment shown in the figures, the synchronized movement is obtained by virtue of the fact that the crank mechanisms 25, 40 that move the sucker means 18 and the cart 36 are pivoted on the same pulley. In other cases, it will be possible to obtain a synchronization in a different manner, for example, by controlling by a driving and control unit the actuators of the sucker means 18 and the cart 36.
The second sucker means 18′, if present, act in the same manner and are used with cartons of large dimensions.
The step of topping up the cartons is illustrated in
To this aim, the machine for separating into sheets will comprise sensors, for example photocells, arranged in a suitable position such as to detect when the level of the cartons C in the warehouse is dropped below a preset level. This datum is sent to a driving and control unit that then provides to start the topping up step.
The step of emptying the warehouse 4 to change the type of cartons C is performed by inverting the operative steps described above to load cartons, i.e.:
From what has been set forth above, the advantages of the machine of the invention are many.
The machine allows singularizing the carton to be withdrawn in an efficient manner, independently from the type of cartons to be separated into sheets (smooth or rough surface), avoiding to drag two or more cartons at a time, which would cause a malfunctioning or a discontinuation of the packaging process downstream of the sheet separator machine.
The step of separating into sheets occurs in a quick and accurate manner, increasing the productivity of the packaging process.
The steps of loading, unloading, and topping up of the warehouse 4 occur in an accurate and automatized manner, without requiring interruptions in the machine operation.
It shall be apparent that only some particular embodiments of the present invention have been described, to which those skilled in the art will be able to make all those modifications necessary to fit thereof to particular applications, without for this departing from the protection scope as defined in the appended claims.
Number | Date | Country | Kind |
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MI2012A1379 | Aug 2012 | IT | national |
Number | Name | Date | Kind |
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4369962 | Spiro | Jan 1983 | A |
4889331 | Sardella | Dec 1989 | A |
Number | Date | Country |
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2 654 084 | May 1991 | FR |
1 437 749 | Jun 1976 | GB |
2 290 074 | Dec 1995 | GB |
Number | Date | Country | |
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20140035220 A1 | Feb 2014 | US |