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GB2128134A - Forming cartons - Google Patents
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GB2128134A - Forming cartons - Google Patents

Forming cartons Download PDF

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Publication number
GB2128134A
GB2128134A GB08325711A GB8325711A GB2128134A GB 2128134 A GB2128134 A GB 2128134A GB 08325711 A GB08325711 A GB 08325711A GB 8325711 A GB8325711 A GB 8325711A GB 2128134 A GB2128134 A GB 2128134A
Authority
GB
United Kingdom
Prior art keywords
conveyor
adhesive
end panels
die
blank
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
GB08325711A
Other versions
GB8325711D0 (en
Inventor
William Edward Hampton
Martin Anthony Croucher
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kliklok LLC
Original Assignee
Kliklok LLC
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kliklok LLC filed Critical Kliklok LLC
Publication of GB8325711D0 publication Critical patent/GB8325711D0/en
Publication of GB2128134A publication Critical patent/GB2128134A/en
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • B31B50/26Folding sheets, blanks or webs
    • B31B50/44Folding sheets, blanks or webs by plungers moving through folding dies
    • B31B50/46Folding sheets, blanks or webs by plungers moving through folding dies and interconnecting side walls
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • B31B50/60Uniting opposed surfaces or edges; Taping

Landscapes

  • Making Paper Articles (AREA)

Description

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GB 2 128 134 A
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SPECIFICATION Forming cartons
5 This invention relates to the forming of cartons,
more particularly of paperboard or the like by folding a blank of the type providing a bottom panel, a pair of side panels and a pair of end flaps articulated to the sides of the bottom panel, a pair of major end 10 panels articulated to the upstanding sides of one side panel, a pair of minor end panels articulated to the upstanding sides of the other side panel, the width of the major end panels and the end flaps being substantially the same as the width of the 15 bottom panel, top closure panels on the side panels and major end panels, and a guide tab on each end flap for guiding the end flaps by engagement with the insides of the major end panels during folding, with slits between the end panels and end flaps 20 extending substantially to the meeting point of fold lines between the side panels and the bottom panel and the end flaps.
A carton of this type is described in GB-PS 1 424 035 as having the overlying panels bonded to each 25 other by thermoplastic adhesive material on at least one of each pair of the surfaces to be bonded, in particular the end flaps each having an adhesive strip across thefull width of the outside thereof adjacent the bottom panel for bonding to the 30 adjacent major end panel. The end flaps have substantially full overlap of the widths of both the major and minor end panels adjacent the juncture with the bottom panel, and the edges of the end flaps contact the fold lines of both major and minor 35 end panels so as to obviate leakage channels. Furthermore, the fold lines are embossed on the blank, with a convexed side of the lines being on the inside of the carton to form beads when folded, the free edge of each major end panel abutting the fold 40 bead forthe corresponding minor end panel to assist in forming the side seal of the carton. Moreover, the slits between the end panels and end flaps must only extend substantially up to the outer limit of the convexed surface of the embossed lines to cause full 45 compression of the convexed surface and whereby puckering of excess paperboard and adhesive caulks the cornerformed to obviate pinhole leakage.
The particular description with reference to the drawings accompanying GB-PS 1 424035 makes it 50 clear that, in order to turn the blank into a fully formed and fully sealed carton (except that is for the closing and sealing of the closure flaps) ready to receive liquid or semi-liquid products, the blank is coated on both the inside and the outside with 55 thermoplastic adhesive material and a total of eight areas of adhesive are activated by heat applied by complex arrays of nozzle boxes disposed in opposed pairs above a forming die into and through which the blank is moved down (by a plunger or punch) to 60 effect the folding operation. In addition to activating an adhesive strip across the full width of the outside of each end flap, the nozzle boxes also apply heat along a marginal portion of the outside of each major end panel, along the inside of each minor end 65 panel, and across the bottom of the inside of each major end panel.
Although GB-PS 1 424 035 also describes and illustrates how blanks as hereinbefore defined can be cut from flat stock, with adjacent blanks opposite-70 ly directed, the major end panel of one being contiguous with the minor end panel of the other and the guide tab of one blank being contiguous to the guide tab of the other blank, whereby to enhance the conservation of paperboard, the full potential of 75 this type of carton has not been realised, probably for a number of reasons. Firstly, the need for embossed fold lines and end flap defining slits in a precise relationship as aforesaid; secondly, the provision of thermoplastic adhesive material on 80 both the inside and the outside of the carton; thirdly, the need for complex arrays of nozzle boxes to activate the adhesive over several areas, one pair of which is disposed transversely with respect to the other areas; and fourthly, the folding of the minor 85 end panels outside the major end panels detracting from the final apearance of the cartons, especially if pre-printed. All these have added up to the need for complex blank cutting and embossing machinery, and relatively slow heat activating and folding 90 machinery, so that difficulty is experienced in allying such machinery to product (e.g., food) processing machinery plus a reluctance to add the cost of changing over from product loading machinery utilizing sleeve cartons open at both ends. Thus, for 95 some ten years, the expensive machinery and relative slowness of operation, etc., has been considered justifiable or acceptable only with regard to leakproof cartons as described and claimed in GB-PS 1 424 035.
100 One object of the present invention is to provide a method of forming a carton of the type initially defined applicable to the widest possible range of flat stock; i.e., not limited to stock coated on both sides with thermoplastic adhesive material, and 105 even applicable to thermoplastic (e.g., polypropylene) blanks.
Another object of the invention is to provide a method with which adhesive forming the necessary bond between each of at least two pairs of mating 110 surfaces is brought to the best possible condition for the forming operation without impairing the speed with which cartons can be formed.
A further object of the invention is to provide a method with which different types of adhesive can 115 be used (to suit different types of stock material and/or coatings and/or impregnations) without impairing the speed with which cartons can be formed.
Yet another object of the invention is to provide a machine for forming cartons of the type initially 120 defined and adaptable to the objects as aforesaid.
A still further object of the invention is to provide a machine forforming cartons of the type initially defined having readily interchangeable parts facilitating changes in sizes of cartons, and particularly 125 adaptable to a wide range of sizes and capable of forming narrow and deep cartons.
According to one aspect of the present invention, a method of forming a carton of the type initially defined comprises the steps of feeding the blank 130 from a pack onto a conveyor with the side forming
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the interior of the carton uppermost and the end panels aligned with the direction of travel of the conveyor, passing the blank on the conveyor through an adhesive applying station, applying an 5 adhesive coating within the inside area of each major end panel projecting laterally beyond the respective minor end panel, passing the blank on the conveyorthrough an adhesive conditioning station, applying heat to the adhesive coatings, feeding the 10 blank from the conveyor onto a die having a throat corresponding substantially to the bottom panel, pushing the blankthrough the die by means of a plunger engaging the bottom panel, the die having guide surfaces whereby the end flaps and minor end 15 panels are turned inside the major end panels, and applying roller pressure against the major end panels to press them against the minor end panels to cause the adhesive between them to form an adequate bond to hold the carton together upon 20 being discharged from the die.
Because the steps of feeding the blank from the pack, applying adhesive, conditioning the adhesive, and pushing the blank through the die are spaced horizontally, the speed at which cartons can be 25 formed is no longer restricted by the total cycle time of these operations, as would be the case if the known method of feeding the blankfrom the pack onto nozzle boxes arrayed above opposite sides of the die were to be modified by the addition of 30 adhesive applying means. In other words, because the operations requiring most time (i.e., the application and conditioning of adhesive) take place whilst the blank is moving along the conveyorthey do not slow down the rate at which the blanks are fed from 35 the pack or the rate at which blanks are pushed through the die. Indeed, the total cycle time will be greater (which is of advantage in arranging for the condition of the adhesive to be just right when each blank is pushed through the die), but the speed of 40 forming cartons will be the speed at which the blanks can be fed from the pack to the conveyor or the speed at which the blanks can be fed from the conveyor up to the die.
By folding the minor end panels (with the end 45 flaps) inside the major end panels, not only does this enhance the appearance of the completed carton, it also allows advantage to be taken of the lateral protrusion of the major end panels beyond the minor end panels in the application of the adhesive 50 whilst the blanks are travelling along the conveyor. Thus the adhesive may be a water-based adhesive (e.g. polyvinyl acetate emulsion) applied by spraying intermittently in phase with the passing of the major end panels, and then dried by hot air blown thereon 55 as the major end panels pass through the adhesive-conditioning station. However the minor end panels are preferably broken upwardly from the plane of the blank as it is fed onto the conveyor, so as to hold the minor end panels clear of the adhesive-applying 60 station (and also ready for folding inside the major end panels), and the end flaps are likewise preferably broken upwardly from the plane of the blank as it is fed onto the conveyor and preferably held over closer to the blank than the minor end panels, even 65 though in the final forming in the die the end panels may be interposed between the respective major and minor end panels. Hot air from the adhesive-conditioning station may also be blown onto the outsides of the minor end panels, to increase the 70 speed at which the bond is formed between the respective major and minor end panels.
Suction may be applied through apertures in the vertical edges of the plungerto hold the minor end panels closely thereto, especially the minor end 75 panels of a narrow and deep carton.
The control of adhesive condition attainable with the separate adhesive-applying and adhesive-conditioning stations, especially using a water-based adhesive and hot air, is such that this method 80 is applicable to virtually any paperboard capable of being transformed from flat blank to carton in a die, such as, duplex, triplex, solid white, grease resistant, single-sided polythene and double-sided polythene.
The spraying of cold adhesive shows a consider-85 able saving over hot melt adhesive, in cost of adhesive, but the use of hot melt adhesive is not precluded.
A modification of the method is also applicable to blanks precoated with thermoplastic orthermoset-90 ting adhesive or thermoplastic blanks. Thus, according to another aspect of the present invention, a method of forming a carton of the type initially defined comprises the steps of feeding the blank from a pack onto a conveyor with the side forming 95 the interior of the carton uppermost and the end panels aligned with the direction of travel of the conveyor, passing the blank on the conveyor through an adhesive activating station, activating adhesive at least within the inside area of each major 100 end panel projecting laterally beyond the respective minor end panel, feeding the blankfrom the conveyor onto a die having a throat corresponding substantially to the bottom panel, pushing the blank through the die by means of a plunger engaging the 105 bottom panel, the die having guide surfaces whereby the end flaps and minor end panels are turned inside the major end panels, and applying roller pressure against the major end panels to press them against the minor end panels to cause the adhesive 110 between them to form an adequate bond to hold the carton together upon being discharged from the die.
The minor end panels are preferably broken upwardly from the plane of the blank as it is fed onto the conveyor, so as to hold the minor end panel clear 115 of the adhesive activating station (and also ready for folding inside the major end panels), and the end flaps are likewise preferably broken upwardly from the plane of the blank as it is fed onto the conveyor and preferably held over closer to the blank than the 120 minor end panels, even though in the final forming in the die the end panels may be interposed between the respective major and minor end panels; however, the adhesive activating station may direct heat (e.g., by means of blown air) in two directions, one 125 downwardly for the insides of the major end panels and one laterally for the outsides of the minor end panels, in which case the breaking of the minor end panels and end flaps and the holding of the end flaps closer to the blank facilitates the application of heat 130 to the minor end panels.
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GB 2 128 134 A 3
Suction may be applied through apertures in the vertical edges of the plunger to hold the minor end panels closely thereto, especially the minor end panels of a narrow and deep carton.
5 According to a further aspect of the invention, a machine for forming cartons of the type initially defined comprises an endless conveyor, a magazine for the blanks inclined downwardly towards the leading end of the upper run of the conveyor, a 10 pick-out and transfer mechanism for feeding the blanks individually in succession from the magazine onto the conveyor with the side forming the interior of the carton uppermost and the end panels aligned with the direction of travel of the conveyor, adhe-15 sive-applying and conditioning or activating equipment disposed above the conveyor, a die beyond the trailing end of the upper run of the conveyor and having a throat corresponding substantially to the bottom panel, a transfer mechanism forfeeding the 20 blanks in succession from the conveyor onto the die, a plunger for pushing each blank in turn through the die by engaging the bottom panel, the die having guide surfaces whereby the end flaps and minor end panels are turned inside the major end panels, 25 rollers for applying pressure against the major end panels to press them against the minor end panels to cause the adhesive between them to form an adequate bond to hold the carton together upon being discharged from the die, a motor, and driving 30 mechanisms connecting the motor to the conveyor, the transfer mechanisms and the plunger.
The conveyor is preferably provided with pairs of lugs for propelling the blanks positively and is also preferably provided with guide rails for breaking the 35 minor end panels and end flaps upwardly from the plane of the blanks and for holding the end panels closer to the blanks as they pass the adhesive-applying equipment and adhesive-conditioning or activating equipment, and in readiness for folding 40 the minor end panels and the end flaps inside the major end panels, even though in the final forming in the die the end panels may be interposed between the respective major and minor end panels.
Adhesive-applying equipment may comprise 45 sprays applying water-based adhesive intermittently and adhesive-conditioning or activating equipment may comprise hot air blowers operating continuously or intermittently in phase with the passing of blanks along the conveyor.
50 The vertical edges of the plunger may be provided with apertures, with passages through the plunger and flexible pipes to a source of suction, so that suction supplied at the apertures holds the minor end panels of the cartons (especially the minor end 55 panels of narrow and deep cartons) to those edges of the plunger.
The magazine and the pick-out and transfer mechanism forfeeding the blanks individually in succession from the magazine onto the conveyor 60 can be of conventional type, but the transfer mechanism for feeding the blanks in succession from the conveyor onto the die preferably comprises an endless driven belt having an upper run in extension of the conveyor, and a spring-loaded nip 65 roller adjustable lengthwise of the upper run of the belt, to set the position of the nip between the roller and the belt to cease propelling each blank as the latter moves into its final position on the die.
Although the overall length of the machine will be 70 appreciably more than with the known machines of the type having nozzle boxes arrayed above opposite sides of the die and onto which blanks are fed individually in succession from a magazine, the speed of operation can be appreciably greater. 75 However, the one motor and driving mechanisms can operate a double (or multiple) machine having pairs (or equivalent numbers) of magazines, conveyors, transfer mechanisms, dies and plungers side by side, and feeding alternate cartons to a product 80 packaging line, which may be hand-loaded or mechanised loading in a variety of dispositions for a wide variety of products.
A further advantage of the methods and machine of the present invention is that, in addition to the 85 saving of flat stock in making the blanks, there are great savings for the user because of savings over a preglued sleeve carton and the flat blanks are more convenient both for shrink-wrapping packs of blanks (instead of having to enclose a lesser number of 90 sleeve blanks in a custom made carton) and loading the magazine.
To facilitate adapting of the machine to different sizes of cartons, the (or each) conveyor is preferably flanked by longitudinal beams carrying the respec-95 tive guide rails, adhesive-applying and conditioning or activating equipment spaced longitundinally and projecting laterally appropriately to one size of carton blank, and the (or each) die and plunger are preferably carried together on a common frame, the 100 die and plunger having cross-sectional dimensions and heights appropriate to one size of carton, the longitudinal beams and the frame being readily attachable and detachable, for interchange with similar beams and frames appropriately equipped to 105 suit other sizes of cartons.
Methods and a machine in accordance with the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:-
110 Figure 1 is a layout of blanks for cartons of the type initially defined as cut out from a single piece of board;
Figure 2 is a perspective view of one carton blank as in Figure 1 after the application of adhesive and in 115 the process of being folded in accordance with one method aspect of the invention;
Figure 3 is a perspective view of the fully formed carton ready to receive a product;
Figure 4 is a diagrammatic side elevation of a 120 machine in accordance with the invention, with side covers removed;
Figure 5 is a side elevation corresponding to part of Figure 4 but to a larger scale and in more detail;
Figure 6 is a plan of Figure 5;
125 Figures 7to 70 are fragmentary vertical sections taken from the lines VIII-VII to X-X respectively of Figure 6;
Figure 11 is a fragmentary side elevation showing a diverter valve for blown hot air appearing in 130 Figures 4 to 6, but to a larger scale than Figures 5 and
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6 and with one half of the valve body removed;
Figure 12 corresponds to Figure 11, but shows the diverter of the valve in its alternative position and portion of nozzle box in section;
5 Figure 13 is a perspective view of a frame unit seen in side elevation (from the other side) at the right-hand side of Figure 4 and carrying the plunger and die;
Figure 14 is an enlarged plan of the die; 10 Figure 15 is a horizontal section towards the bottom of the die;
Figure 16 is a layout view of a carton blank having different dimensions from the blanks of Figure 1;
and
15 Figure 17 \s a perspective view of the fullyformed carton from the blank of Figure 16 ready to receive a product.
In Figure 1 carton blanks 20 a re cut out from flat stock, with adjacent blanks oppositely directed so 20 that the major end panel 21 of one is contiguous to the minor end panel 22 of the other. End flaps 23 are also contiguous but have their mating edges shaped to provide a transition between the major and minor end panels of the respective blanks. The end flaps 23 25 of each blank 20 are articulated to the ends of a bottom panel 24, and the major and minor end panels 21,22 are articulated to the sides of side panels 25,26 respectively, which are themselves articulated to the sides of the bottom panel. Top side 30 closure panels 27,28 are articulated on the side panels 25,26 respectively and top end closure panels 29 are articulated on the major end panels 21. Articulation is determined by fold lines, which may be formed as score lines or crease lines, and which 35 are indicated by broken lines in Figure 1, cutting lines being indicated by unbroken lines. Wastage is limited to the very small cutouts formed at the ends of the top side closure panels 27,28 and each portion of the blank remaining is functional, so that the 40 blanks 20 result in conservation of the board.
Each end flap 23 has a guide tab 30 for guiding the end flaps by engagement with the insides of the major end panels 21 during folding, as shown in Figure 2, and slits between the end panels 21,22 and 45 the end flaps 23 extend substantially to the meeting point of the fold lines between the side panels 25,26 and the bottom panel 24 and the end flaps 23.
Figure 2 indicates, in accordance with one method of the invention of forming a carton from a paper-50 board blank as in Figure 1, an adhesive coating 31 applied within the inside area of each major end panel 21 projecting laterally (i.e., in the direction parallel to the length of the bottom panel 24) beyond the respective minor end panel 22, so that upon 55 folding of the blankto bring the side panels 25,26 parallel to each other with the minor end panels 22 and the end flaps 23 inside the major end panels 21, the adhesive coatings 31 form bonds between the insides of the major end panels 21 and the outsides 60 of the minor end panels 22, to form the carton shown in Figure 3.
The full method will now be described with reference to Figures 4 to 15 showing a machine in accordance with another aspect of the invention. 65 Each blank 20 is fed from a pack 32 in a magazine
33 onto a conveyor 34 with the side forming the interior of the carton uppermost and with the end panels 21,22 aligned with the direction of travel of the conveyor, passing the blank on the conveyor 70 through an adhesive applying station 35 (where the adhesive coating 31 is applied to each major end panel as aforesaid), passing the blank on the conveyor through an adhesive conditioning station 36 (where heat is applied to the adhesive coatings), 75 feeding the blank from the conveyor onto a die 37 having a throat 38 corresponding substantially to the bottom panel 24, pushing the blank through the die by means of a plunger 39 engaging the bottom panel, the die having guide surfaces 40 whereby the 80 end flaps 23 and minor end panels 22 are turned inside the major end panels, and applying roller pressure against the major end panels to press them against the minor end panels to cause the adhesive between them to form an adequate bond to hold the 85 carton together upon being discharged from the die.
Figure 4 shows a motor 41 and gearbox 42 and -diagrammatically - driving mechanisms 43,44,45, 46,47 to (respectively) a pickout and transfer mechanism 48 (of well-known type) forfeeding the 90 blanks individually in succession from the magazine 33 onto the conveyor 34, to the conveyor itself, to a transfer mechanism 49 for feeding the blanks in succession from the conveyor onto the die 37, and to the plunger 39.
95 The conveyor 34 comprises two endless chains 50 (Figure 9) with pairs of lugs 51 for propelling the blanks over a deadplate 52 between the longitudinal beams 53 carrying adhesive-applying and conditioning equipment and guide rails all of which will now 100 be described in greater detail.
The minor end panels 22 and the end flaps 23 are broken upwardly from the plane of the blank 20 as it is fed onto the conveyor 34, by means of guide rails 54 (Figures 5,6 and 7), so as to hold them clear of the 105 adhesive applying station 35 (and also ready for folding inside the major end panels 21).
The adhesive-applying station 35 has adhesive-applying equipment comprising two sprays 55 applying water-based adhesive intermittently in phase 110 with the passing of the major end panels 21, the timing being controlled by a photocell detector 56 carried by one of a pair of guide rails 57, which are spaced from the breaker guide rails 54 by spacer guide rails 58 (which initially receive the major end 115 panels 21). The sprays 55 are adjustable towards and away from each other by means of handwheels or knobs 59 (see also Figure 8).
The adhesive-conditioning station 36 is spaced from the adhesive-applying station 35 by guide rails 120 60 (see also Figure 9) and has adhesive-conditioning equipment comprising two hot air blowers 61 with nozzle boxes 62 having lower apertures 63 for directing hot air onto the adhesive coatings 31 applied to the major end panels 21, and side 125 apertures 64 for directing hot air against the outsides of the minor end panels 22 (see also Figure 10to 12), while the end flaps 23 are held clear by bar guides 65. The hot air blowers 61 may operate continuously, but if there is an interruption in the succession of 130 blanks 20 sensed by the detector 56, whereupon the
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hot air is diverted, by diverter valves 66, into upstanding exhaust pipes 67 and ducts 68 (Figure 4 only) exhausting above an attic 69, which houses a separately powered air unit 70 providing air for the 5 blowers 61 and suction for the pick-out and transfer mechanism 48. Each diverter valve 66 comprises a two-part valve body 71 with alternative passages 72, 73 for the blown air from the blower 61 to respectively the nozzle box 62 and the exhaust pipe 67, under 10 the control of a diverter 74 which is swung between its two positions (Figures 11 and 12) by an arm 75 oscillated by a pneumatic cylinder 76 and piston 77.
Beyond the adhesive-conditioning station 36 the blanks 20 are carried by the conveyor between 15 guides 78 until they are fed by the transfer mechanism 49 onto the die 37. A pair of hold-down guides 79 prevent the blanks from lifting from the conveyor at this crucial stage, and similar pairs of hold-down guides 80,81 respectively are provided at the 20 adhesive-applying station 35 and between there and the adhesive-conditioning station 36.
The transfer mechanism 49 comprises an endless belt 82, driven by the drive mechanism 46, with an upper forwarding run extending from a slot 83 in the 25 end of the deadplate 52 of the conveyor, and with a spring-loaded nip roller 84 adjustable lengthwise of the upper run of the belt to set the position of the nip between the roller 84 and the belt 82 to cease propelling each blank 20 as the latter moves into its 30 final position on the die 37.
As can be seen particularly in Figure 13 (but also to some extent in Figure 4), the drive mechanism 47 for the plunger 39 includes link rods 85 to a crosshead 86 to which is gimballed the upper end of a shaft 87 35 to the lower end of which is secured to the plunger 39. The shaft 87 has a non-circular cross-section (e.g., it may be splined) and slides in corresponding bearings 88 on two out of three cross-beams 89 of a frame 90, so that the plunger 39 cannot rotate about 40 the shaft axis (i.e., the plunger will be maintained in correct alignment with the throat 38 of the die 37). The frame 90 also consists of two columns 91 (between which the cross-beams 89 are secured) and upper and lower pairs of brackets 92,93 for 45 securing the frame to the end of the machine.
The die 37 (see also Figures 14 and 15) comprises an open-sided box 94 secured by brackets 95 to the columns 91, and a table 96 bolted on the top of the box 94. The table has a slot 97 into which curve two 50 plates 98 adjustable towards or away from each other to set the width of the throat 38 closely to the width of the bottom panels 24 of the blanks 20,
which are positioned on the table by pairs of guide rails 99,100 and an end stop 101. The box 94 houses 55 rollers 102 for guiding the folded blanks through the die as the blanks are pushed downwards by the plunger 39, and also houses rollers 103 (Figure 15 only) for applying pressure against the major end panels 21 to press them against the minor end 60 panels 22 to cause the adhesive 31 between them to form an adequate bond to hold the carton together upon being discharged from the die 37.
Figure 13 also shows apertures 104, which are provided in both edges 105 of the plunger 39, 65 suction being applied to the apertures via passages
(not shown) in the plunger, rigid pipes 106 between the plunger and the crosshead 86, and flexible pipes 107 to the air unit 70, under the control of a valve (not shown) actuated by a switch 108 engaged by the crosshead 86 when the plunger has entered the die, for the suction at the apertures 104 to hold the minor end panels 22 firmly to the edges 105 of the plunger, as is particularly advantageous when forming blanks of the type 20A shown in Figure 16 into cartons which, as shown by Figure 17, are much deeper and narrower than cartons of the type shown in Figure 3.
To facilitate adapting of the machine to different sizes of cartons, the longitudinal beams 53 carrying the respective guide rails 54,58,57,60,78 and 80,81, 82, the adhesive-applying equipment 35 and the adhesive-conditioning equipment 36 are provided with brackets 109 (Figures 5 to 7) with holes 110 locating on pegs 111 upstanding from beams 112 (Figures 4 and 7), which have quick-action clamps 113 for the brackets, thus enabling the beams 53 to be detached for interchange with similar beams appropriately equipped with guide rails etc. to suit other sizes of cartons. The detector 56, adhesive sprays 55, the diverter valves 66 and the transfer mechanism 49 are conveniently readily transferable from one set of beams 53 to another, to save duplication of too many parts not requiring different dimensions.
Likewise, the frame 90 with its plunger 39 and die 37 are readily detachable from the machine as a unit for interchange with a similar frame appropriately equipped with plungers and dies to suit other sizes of cartons.
For operation of the machineforforming similar cartons from blanks precoated with thermoplastic or thermosetting adhesive or from blanks made of thermoplastic, in accordance with another method aspect of the present invention, the adhesive-applying station 35 can be removed, or its sprays 55 rendered inoperative, the adhesive-conditioning station 36 then becoming an adhesive-activating station, with the hot air blown by the blowers 61 activating the thermoplastic or thermosetting adhesive at least within the inside area of each major end panel 21 projecting laterally beyond the respective minor end panel 22 (i.e., the area corresponding to that of the sprayed adhesive coating 31 in Figure 2), or with the hot air softening the surface of a thermoplastic blank within that same area of each major end panel to an extent that enables it to form an adequate bond with the respective minor end panel. The same nozzle boxes 62 may be used, with hot air from the apertures 64 heating the uncoated outside of the minor end panel, or activating thermoplastic or thermosetting adhesive thereon, or softening the surface of a thermoplastic blank additionally on the outside of the minor end panel, to form an extremely good bond with the inside of the major end panel.
The methods and machine in accordance with the invention will be seen to be applicable to the widest possible range of flat stock, including thermoplastic blanks, as well as virtually any paperboard capable of bonding by water-based adhesive conditioned by hot air and also any paperboard carrying or coated -
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on one or both sides - with thermoplastic or thermosetting adhesive. Because the various steps or stations are spaced horizontally, the speed at which cartons can be formed is not restricted to the 5 total cycle time of the operations performed at these steps or stations. The operations requiring most time (i.e., the application and conditioning orthe activation of the adhesive - or thermoplastic) merely take up more length along the conveyor and so do 10 not slow down the rate at which blanks are fed from the pack or the rate at which blanks are pushed through the die. The total cycle time will be greater, but the speed of forming cartons will only be limited by the maximum speed at which blanks can be 15 moved by the conveyor and kept under full control by the various guides. A speed of seventy-five cartons per minute is perfectly feasible with one conveyor, but the comparatively simple nature of the equipment and drive mechanisms associated there-20 with makes it also very feasible to incorporate two or more similarly equipped conveyors in one machine (with one motor and gearbox, and one air unit) to obtain machine speeds of one hundred and fifty cartons per minute or in excess of two hundred 25 cartons per minute, as may be required for a product packaging line.

Claims (18)

  1. 30 1. A method of forming a carton of the type initially defined comprising the steps of feeding the blank from a pack onto a conveyor with the side forming the interior of the carton uppermost and the end panels aligned with the direction of travel of the 35 conveyor, passing the blank on the conveyor through an adhesive applying station, applying an adhesive coating within the inside area of each major end panel projecting laterally beyond the respective minor end panel, passing the blank on the 40 conveyor through an adhesive conditioning station, applying heat to the adhesive coatings, feeding the blank from the conveyor onto a die having a throat corresponding substantially to the bottom panel, pushing the blank through the die by means of a 45 plunger engaging the bottom panel, the die having guide surfaces whereby the end flaps and minor end panels are turned inside the major end panels, and applying roller pressure against the major end panels to press them against the minor end panels to 50 cause the adhesive between them to form an adequate bond to hold the carton together upon being discharged from the die.
  2. 2. A method as in Claim 1, wherein the adhesive is a water-based adhesive applied by spraying
    55 intermittently in phase with the passing of the major end panels, and then dried by hot air blown thereon as the major end panels pass through the adhesive-conditioning station.
  3. 3. A method as in Claim 1 or Claim 2, wherein the 60 minor end panels are broken upwardly from the plane of the blank as it is fed onto the conveyor and the end flaps are likewise broken upwardly from the plane of the blank as it is fed onto the conveyor.
  4. 4. A method as in Claim 2 and Claim 3, wherein 65 hot air from the adhesive-conditioning station is blown onto the outsides of the minor end panels.
  5. 5. A method as in any one of Claims 1 to 4, wherein suction is applied through apertures in the vertical edges of the plungerto hold the minor end
    70 panels closely thereto.
  6. 6. A method of forming a carton of the type initially defined from blanks precoated with thermoplastic or thermosetting adhesive or formed of thermoplastic material comprising the steps of feed-
    75 ing the blankfrom a pack onto a conveyor with the side forming the interior of the carton uppermost and the end panels aligned with the direction of travel of the conveyor, passing the blank on the conveyor through an adhesive activating station, 80 activating adhesive at least within the inside area of each major end panel projecting laterally beyond the respective minor end panel, feeding the blankfrom the conveyor onto a die having a throat corresponding substantially to the bottom panels, pushing the 85 blank through the die by means of a plunger engaging the bottom panel, the die having guide surfaces whereby the end flaps and minor end panels are turned inside the major end panels, and applying roller pressure against the major end 90 panels to press them against the minor end panels to cause the adhesive between them to form an adequate bond to hold the carton together upon being discharged from the die.
  7. 7. A method as in Claim 6, wherein the minor 95 end panels are broken upwardly from the plane of the blank as it is fed onto the conveyor, and the end flaps are likewise broken upwardly from the plane of the blank as it is fed onto the conveyor.
  8. 8. A method as in Claim 7, wherein the adhesive 100 activating station directs heat in two directions, one downwardly for the insides of the major end panels and one laterally for the outsides of the minor end panels.
  9. 9. A method as in anyone of Claims 6 to 8,
    105 wherein suction is applied through apertures in the vertical edges of the plungerto hold the minor end panels closely thereto.
  10. 10. A machine for forming cartons of the type initially defined comprising an endless conveyor, a
    110 magazine for the blanks inclined downwardly towards the leading end of the upper run of the conveyor, a pick-out and transfer mechanism for feeding the blanks individually in succession from the magazine onto the conveyor with the side 115 forming the interior of the carton uppermost and the end panels aligned with the direction of travel of the conveyor, adhesive-applying and conditioning or activating equipment disposed above the conveyor, a die beyond the trailing end of the upper run of the 120 conveyor and having a throat corresponding substantially to the bottom panel, a transfer mechanism for feeding the blanks in succession from the conveyor onto the die, a plunger for pushing each blank in turn through the die by engaging the bottom 125 panel, the die having guide surfaces whereby the end flaps and minor end panels are turned inside the major end panels, rollers for applying pressure against the major end panels to press them against the minor end panels to cause the adhesive between 130 them to form an adequate bond to hold the carton
    7
    GB 2 128 134 A 7
    together upon being discharged from the die, a motor, and driving mechanisms connecting the motor to the conveyor, the transfer mechanisms and the plunger.
    5
  11. 11. A machine as in Claim 10, wherein the conveyor is provided with pairs of lugs for propelling the blanks positively, and is also provided with guide rails for breaking the minor end panels and end flaps upwardly from the plane of the blanks. 10
  12. 12. A machine as in Claim 10 or Claim 11,
    wherein adhesive-applying equipment comprises sprays applying water-based adhesive intermittently.
  13. 13. A machine as in Claims 10 and 11 orClaim 15 12, wherein adhesive-conditioning or activating equipment comprises hot air blowers operating continuously or intermittently in phase with the passing of blanks along the conveyor.
  14. 14. A machine as in anyone of Claims 10 to 13, 20 wherein the vertical edges of the plunger are provided with apertures, with passages through the plunger and flexible pipes to a source of suction.
  15. 15. A machine as in any one of Claims 10 to 14, wherein the transfer mechanism forfeeding the
    25 blanks in succession from the conveyor onto the die comprises an endless driven belt having an upper run in extension of the conveyor, and a spring-loaded nip roller adjustable lengthwise of the upper run of the belt.
    30
  16. 16. A machine as in any one of Claims 10 to 15, wherein the conveyor is flanked by longitudinal beams carrying the respective guide rails, adhesive-applying and conditioning or activating equipment spaced longitudinally and projecting laterally 35 appropriately to one size of carton blank and the die and plunger are carried together on a common frame, the die and plunger having cross-sectional dimensions and heights appropriate to one size of carton, the longitudinal beams and frame being 40 readily attachable and detachable, for interchange with similar beams and frames appropriately equipped to suit other sizes of cartons.
  17. 17. Methods of forming cartons of the type initially defined and substantially as hereinbefore
    45 described with reference to the accmpanying drawings.
  18. 18. A machine for forming cartons of the type initially defined and substantially as hereinbefore described with reference to Figures 4 to 15 of the
    50 accompanying drawings.
    Printed for Her Majesty's Stationery Office, by Croydon Printing Company Limited, Croydon, Surrey, 1984.
    Published by The Patent Office, 25 Southampton Buildings, London, WC2A1 AY, from which copies may be obtained.
GB08325711A 1982-10-06 1983-09-26 Forming cartons Withdrawn GB2128134A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB8228570 1982-10-06

Publications (2)

Publication Number Publication Date
GB8325711D0 GB8325711D0 (en) 1983-10-26
GB2128134A true GB2128134A (en) 1984-04-26

Family

ID=10533430

Family Applications (1)

Application Number Title Priority Date Filing Date
GB08325711A Withdrawn GB2128134A (en) 1982-10-06 1983-09-26 Forming cartons

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Country Link
EP (1) EP0105559A1 (en)
GB (1) GB2128134A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022009062A3 (en) * 2020-07-09 2022-02-24 G.D S.P.A. Forming unit and method for forming a container and packing apparatus with such a forming unit

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3417326A1 (en) * 1984-05-10 1985-11-14 Greif-Werk Maschinenfabrik GmbH, 2400 Lübeck MACHINE FOR MAKING FOLDING BOXES FROM CUT-OUT

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1187258A (en) * 1967-10-19 1970-04-08 Metal Box Co Ltd Improvements in Carton Erecting Apparatus
US3908890A (en) * 1972-04-14 1975-09-30 Kliklok Corp Heat sealable carton and method of forming same
US4345905A (en) * 1977-10-31 1982-08-24 Moen Lenard E Making of containers with tri-laminated end walls
GB2093762A (en) * 1981-03-02 1982-09-08 Metal Box Co Ltd Forming and/or closing cartons

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022009062A3 (en) * 2020-07-09 2022-02-24 G.D S.P.A. Forming unit and method for forming a container and packing apparatus with such a forming unit
US12023888B2 (en) 2020-07-09 2024-07-02 G.D S.P.A. Forming unit and method for forming a container and packing apparatus with such a forming unit

Also Published As

Publication number Publication date
GB8325711D0 (en) 1983-10-26
EP0105559A1 (en) 1984-04-18

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