Invention consists of a machine for packing bottles in cardboard boxes which is of the type that receive, by means of a feeding device, bottles that are conveyed and introduced by a conveyor belt, inside of which the bottles are selected by groups and conveyed towards a container or box forming area. The product to be packed could be any other one other than bottles.
The packing capacity of the machine is determined by means of the use of two symmetric container forming stations, in such a way that a single conveyor belt makes two packing areas or stations operate, in such a way that production is doubled, without the need of providing the machine with a double structure, since both forming stations share devices.
Another particularity of the invention is that the forming of the container or box is carried out progressively starting with an unfolded sheet forming the container, in such a way that the machine carries out the folding of that sheet forming the container, folding that begins, once each group of bottles has been automatically placed in an initial phase on a part of that unfolded sheet which will constitute the bottom of the container once same has been assembled.
This forming process of the container, once the group of bottles has been placed on the corresponding part of the unfolded sheet, prevents the labels recently glued on the bottles from moving due to some type of friction with the different forming devices and elements.
Therefore, the packing process of each group of bottles is started by placing the same on the central part of the unfolded sheet, part which will constitute afterwards the bottom of the container once it has been assembled, in such a way that the rest of the phases will be centered on the assembly of the container without the group of bottles undergoing relative movement with respect to the container itself.
Some machines for packing bottles in cardboard boxes include a packing process, where such boxes have been previously assembled, or at least partially, in such a way that the machine introduces the bottles inside these boxes. Afterwards the boxes are closed entirely either by covers or by means of collapsing and folding some laps.
Other machines carry out the partial assembly first and then the above-cited process is repeated starting with the introduction of the bottles inside the boxes and ending with the closing thereof.
In these cases, the packing processes require at least a stage of partial assembly of the container or box, a stage for introducing the bottles inside the partially assembled box and a subsequent stage of closing said box.
There are other machines, on the other hand, that wrap the goods by means of forming a box (Spanish patent publication No. ES-2025895) or by means of supplying material in continuous strips (Spanish patent publication No. ES-2003382).
Spanish patent publication number ES-2025895 especially interests us more, and is a patent where the goods, such as jars, bottles and the like are wrapped by a stamped sheet of cardboard that, during the different stages of the machine, will carry out the assembly of the box wrapping the articles, which will finally remain inside the totally closed container.
The machine of this patent of invention has a single box forming station.
The machine for packing bottles in cardboard boxes is characterized in principle in that it includes at least two box forming stations, in such a way that a single conveyor belt makes two packing areas or stations operate, in such a way that production is doubled without the need of providing the machine with a double structure, since both packing stations share several devices.
This particular characteristic of doubling the box forming stations does not exist in conventional machines, in such a way that with the new machine greater production of packing will therefore be obviously obtained.
Besides, the structure, the device and the different elements that the machine also has are new, as it will be described hereinafter.
Hence, by means of a feeding device, the bottles are conveyed and introduced by a conveyor belt, inside of which the bottles are selected by groups and conveyed towards the two symmetric forming stations of the respective boxes.
Each group of bottles to be packed is placed on a central part of a cardboard sheet that has been previously placed on a frame that forms part of a descending device. This central part will constitute the bottom or bottom base of the box once it has been assembled.
In a subsequent phase, this frame, along with the cardboard sheet and bottle, descend towards the cardboard sheet that makes contacts with the mouth elements of a funnel-shaped structure, the mouth being larger than the bottom of the box.
With this operation, the assembly of the box and group of bottles and due to the weight thereof, descend due to gravity passing by the funnel-shaped structure that partially assembles the box with respect to the side walls and bottom thereof.
Previously, a movable platform advances along some parallel longitudinal guides, a platform where the base or bottom of the partially assembled box sits.
In a subsequent phase, some forming devices of the side walls of the box approach each other in a first and second approximation, in such a way that said forming devices will press the sides of the container, adapting thereto, in such a way that the movable parts thereof can collapse and fold the front ends of the container.
Once the front ends have been folded, some small lugs that collapse towards the inside and gently fold some end laps that form part of the closure of the mouth of the box or container, said lugs being coupled in one part of these folding devices.
Simultaneous to the movement of the lugs, the folding of other bottom end laps, that originate from the bottom of the box and that abut externally to the front ends, is carried out. This final folding is carried out by means of other movable parts that form part of the movable platform, parts that also fasten the container at the bottom in order to improve the conveyance thereof in subsequent movements.
In a subsequent phase, the different elements of the forming device return to their initial position. Afterwards these elements also move transversally up to their original position.
Then, an arm mechanism carries out the collapsing of a first larger lap that forms part of the closure of the mouth of the container. Then, the box will be conveyed like a funnel up to an advanced position along the longitudinal guides until a position where a total closing device will collapse a second larger lap of the mouth of the box that will be glued to the first above-cited lap, is reached.
For this purpose, this device comprises a jointed central plate that actuates the second larger lap. Afterwards, some jointed end folding elements that form part of said device carry out the collapsing downward of some tongues that will abut against the top part of the front ends of the box, thus completing the total assembly and closure of the box.
The box has been previously glued in its unfolded position by means of some adhesive strips so that the box once it has been assembled acquires the required consistency.
On the other hand, the possibility of including some centering devices has been provided for in order to place and convey each group or groups of bottles until they are placed on the unfolded sheets in the initial phase.
In a first option, the centering and placement device simply consists of a U-shaped support.
In a second option, the device consists of a conveyor support that picks up the group of bottles by their respective necks, at the same time that it clamps them. This device is more effective than the prior one, permitting the bottles to be placed in any manner.
The boxes obtained can have any other shape. For this purpose, it would merely be necessary to make some simple changes in the devices and elements of the machine.
In general, the movements of the different movable elements and devices is generally carried out by means of small pneumatic cylinders, although any other suitable means could be used.
Hereinafter to provide a better understanding of this specification and forming an integral part hereof, some figures in which the object of the invention has been represented in an illustrative and non-restrictive manner, are attached hereto.
An embodiment of the invention is described hereinafter using the numbering adopted in the figures.
In principle the machine includes a metallic structure (1) that supports two conventional cardboard sheet (2) feeding devices, cardboard sheets which are stacked on the respective inclined planes, in such a way that by means of said feeding devices not represented in the figures. The sheets (2) are conveyed up to some initial areas (3) of the machine placed in correspondence with some descending devices (4) where said sheets (2) will be placed on horizontal planes.
The machine also includes a conventional bottle (6) feeding device, bottles which will be conveyed and introduced by a conveyor belt (7) inside of which the bottles are selected by groups that are then conveyed towards the initial container or box (8) forming area (3), said groups corresponding to each one of the two descending devices (4).
Hence, once each one of the unfolded sheets (2) of the cardboard boxes (8) in the initial area (3) is placed in correspondence with the respective device (4), a group of bottles (6) is placed by conveyance on a central part (9) of the unfolded sheet (2), said central part corresponding with the bottom or base of the boxes (8).
In this situation, the unfolded sheet (2) rests, at the central part (9) that supports the bottles (6), on a horizontal U-shaped frame (10) that forms part of the descending device (4) and that will be conveyed downward by means of a pneumatic cylinder (11), in such a way that in this descent, the unfolded sheet (2) makes contact by its side walls with several forming elements (12) and (13) of a mouth belonging to a funnel-type structure (14). In this situation, the weight of the bottles (6) causes the sheet (2) to be partially assembled passing together with the group of bottles (6) through the funnel-shaped structure (14) up to a bottom position where the side walls of the box (8) remain partially assembled along with the bottom (9), walls that will sit on a movable conveyor platform (15) carried on some longitudinal guides (16). In this situation the box will remain inside the funnel-shaped structure (14).
The funnel-shaped structure (14) is adjustable and basically comprises two horizontal parallel strips (17), structure where other downward vertical strips (18) are connected, strips which in turn extend upward in some small inclined extensions (12), which together with other end pieces (13) constitute the above-mentioned mouth forming elements, which constitute the mouth itself. The frame (10) where the unfolded sheet (2) rests in its descent passes between said strips (17) and (18). Furthermore, it should be pointed out that the sides or larger side walls (19) of the box are arranged in correspondence with said strips (17) and (18).
In a subsequent phase, some forming devices (20) of the side walls of the box approach each other in a transversal direction in a first approximation, along both sides of the longitudinal guides (16) in order to collaborate with the elements (12) and (13) forming the mouth of the funnel-shaped structure (14) during the descent process of the box (8).
When the box has reached its bottom position with its base (9) resting on the movable platform (15), the forming devices (20) carry out a second approximation, this time pressing the sides of the container adapting to them, in a such a way that a movable part (21) in the manner of a hinged door of these devices (20) can collapse and fold the front ends (22) of the box (8) together with other narrow corner extensions (23).
Once the front ends (22) are folded some small lugs (24) are actuated, lugs which collapse towards the inside and gently fold some top end laps (25) that form part of the closure of the mouth of the container (8). Said lugs (24) articulate in the movable part (21) of the side forming devices (20).
Simultaneous to the movement of the lugs (24), the folding of other bottom end laps (26) that originate in the bottom (9) of the box (8) and that abut externally to the front ends, is carried out. This final folding is carried out by means of other movable parts (27), also in the manner of hinged doors, that form part of the movable forming platform (14) conveyed along the longitudinal guides (16). These movable parts (27) also fasten underneath the container (8) in order to improve its conveyance in subsequent movements along the longitudinal guides (16).
In this subsequent phase, the different elements of the forming devices (20) return to their initial position and afterwards these elements then move transversally up to their original position.
Then, an arm device or mechanism (28) carries out the folding of the first larger lap (29) that forms part of the closure of the mouth of the container (8). One of these arms (30) is basically responsible for the collapsing whereas the other elbowed arm (31) prevents the larger lap (29) from rising when the container (8) is conveyed towards the following forming station where a device (32) that totally closes the mouth of said container (8) will actuate. This conveyance will be carried out by the movable platform (15) conveyed on the longitudinal guides (16). This arm mechanism (28) includes a rotating longitudinal rod (33) and two arms integral to the rod: a front one (30) and the other one elbowed (31).
During the conveyance of the box (8) a second larger lap (34) begins to collapse by means of a top and intermediate folded guide (35) that remains static, in such a way that once the box (8) reaches the last forming station, the total closing device (32) will actuate the second larger lap (34).
For this purpose, this device (32) comprises a central jointed plate (36) that actuates the second larger lap (34), the second lap abutting against the first larger lap (29). Then, some end folding elements (37) jointed to that central plate (36) collapse downward towards some tongues (38) that will abut against the top part of the front ends (22) of the box (8), thus complementing the total assembling and closing of thereof.
The box (8) has been previously glued in its unfolded position (
For this purpose, the total closing device (32) returns to its original position, at the same time that the conveyor platform (15) releases the box from its bottom part so that a pusher (40), that moves the box transversally and removes it from the corresponding conveyor belt, comes into operation. Each conveyor belt corresponds with each one of the two longitudinal guides (16), withdrawing it towards an ordinary conveyor belt (5).
On the other hand, the possibility of including a U-shaped support (41) with its free ends diverging outward that ensure the perfect centering of each group of bottles (6) in the initial phase on the base (9) of the container (8) in an unfolded state, has been provided for. When the initial descent of the unfolded sheet (2) with the bottles (6) begins, this support (41) will adopt a vertical position.
On occasions it is important to use this U-shaped support (41) since if the group of bottles is not located exactly on the base of the box, assembly thereof will be defective.
Finally, it should be pointed out that this machine includes an entire series of sensors and electronic control devices in order to automate and control each and every one of the above-cited movements.
As a second option and alternative to the U-shaped support (41), a device that consists of a conveyor support (42) that gathers each group of the bottles (6) selected on the conveyor belt (7) and conveyed directly until the bottles are placed and centered on the bottom (9) of the unfolded sheet (2), has been provided for.
For this purpose, the support (42) has along with a top base (43) some bottom elements (44) to fasten the bottles by the necks during conveyance until they are placed on the unfolded sheet (2) and some side elements (45) that clamp the group of bottles (6) during conveyance.
This second device is more effective than the first one, since it permits bottles with different shapes, different from those of ordinary cylindrical bottles, to be handled.
The conveyor support (42) and all the other elements (44, 43, etc.) are also common to the first option (U-shaped support (41)). The difference is in the side elements (45) that would replace the support (41).
Number | Date | Country | Kind |
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200102781 | Dec 2001 | ES | national |
The present application is a Continuation of co-pending PCT Application No. PCT/ES02/00564 filed Nov. 28, 2002, which in turn, claims priority from Spanish Application No. 200102781 filed Dec. 14, 2001. Applicants claim the benefits of 35 U.S.C. §120 as to the PCT application and priority under 35 U.S.C. §119 as to the said Spanish application, and the entire disclosures of both applications are incorporated herein by reference in their entireties.
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Number | Date | Country |
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2003382 | Nov 1988 | ES |
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Number | Date | Country | |
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20040031236 A1 | Feb 2004 | US |
Number | Date | Country | |
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Parent | PCT/ES02/00564 | Nov 2002 | US |
Child | 10640293 | US |