This invention relates to so-called Bag-In-Box (BIB) carton packaging suitable for diverse flowable materials, such as liquids, gels, granules, pellets, capsules, sachets, chunks, crystals, flakes or powders.
Terminology—BIB
The term BIB is used herein for convenience to embrace packaging with inner and outer structures of different materials. A prime category features a relatively soft deformable inner liner or bag and a relatively stiff, hard outer box or carton. The inner structure is impermeable and sealable for contents enclosure—whilst the outer structure need not be, but rather serves as a protective outer cover.
Fundamentally, inner and outer structures are made separately and independently by different processes and brought together for contents fill. This contrasts with, say, continuous sealed tube carton technology, such as represented by TETRAPAK™
Particular BIB concerns are carton case assembly erection, bag (liner) insertion, inflation and fill. BIB offers the prospect of collapse format, both before and after use, with attendant savings in so-called in-bound logistics and post-usage disposal.
Thus BIB obviates shipment and storage of empty containers preparatory to contents fill. However, BIB does require mechanised assembly preparatory to fill, and thus additional facilities and operations at or prefacing a fill station. These counter savings in transport and storage of empty rigid wall containers. Moreover, BIB fill requires specialised equipment, generally incompatible with that for rigid containers.
Regulatory & Environmental
Regulatory and environmental pressures militate against rigid wall plastic containers, but both bag plastics and card are biodegradable. Moreover, some territories apply import levies upon weight of plastics material introduced, so minimal plastic bag mass is advantageous. Both carton and bag lend themselves to production from materials which can be recycled.
Bag
Although commonly, thin walled for economy of production—and so vulnerable, to puncture, tear or rupture—a bag lends itself to collapse before and after use for contents storage. The Applicant has used this to advantage in bag installation.
Carton or Box
A relatively stout outer box or carton offers protection and support to an otherwise vulnerable bag. Mutual bag-carton interaction—and in particular relative location—pose particular challenges for BIB packaging.
Regulatory & Environmental
Regulatory and environmental pressures militate against rigid wall plastic containers, but both bag plastics and card are biodegradable. Moreover, some territories apply import levies upon weight of plastics material introduced, so minimal plastic bag mass is advantageous. Both carton and bag lend themselves to production from materials which can be recycled.
Bag
Although commonly, thin walled for economy of production—and so vulnerable, to puncture, tear or rupture—a bag lends itself to collapse before and after use for contents storage. The Applicant has uŝ̂̂Document Error̂̂̂̂̂̂Document Error̂̂̂ ̂̂̂Document Error̂{circumflex over (̂)}{circumflex over (̂)}
Prior Art—Conventional BIB
In a conventional carton assembly and erection to an open-ended sleeve format is undertaken separately from bag (contents) fill. Bag fill is undertaken through a top neck or spout, before installation of a (threaded) closure cap.
A filled bag is inserted through a carton open (top) end and carton top flaps closed over the bag to create a full enclosure. A bag neck and spout may be submerged within the closed box—accessible by opening a panel or hatch. Alternatively, the bag neck or spout penetrates a localised aperture in a box top flap.
Mechanisation
In conventional mechanisation for mass production and on-line fill, a case-erector is employed for carton assembly erection and flap closure. For sealing a carton closed, hot melt adhesive is applied to mutually overlaid panel faces and/or tape is overlaid upon carton edges. However, adhesive and thin wall bags are generally incompatible—and this has proved a deterrent quality control concern in BIB adoption. Moreover, top entry bag insertion dictates an open top carton configuration with closure panels or flaps—requiring a discrete taping security step for retention.
Applicant's Earlier Technology
The Applicant has BIB technology with various (branded) improvements, including . . .
JERRIBOX(™)
The Applicant has devised a bespoke BIB container—branded JERRIBOX(™)—in which a special locating collar is fitted between inner bag liner and outer box carton, to allow fill on a fill line originally intended for rigid wall containers such as plastics jerrycans.
The Applicant has also devised a collapsible flat pack pre-assembled format, in which a collapse folded bag is sandwiched within a collapse folded carton wrap—but for a protruding neck—itself held captive by a locating and entrainment collar.
The Applicant has further devised pneumatic bag inflation—branded PULSE PA(C)K(™)—to effect, or at least assist, bag and wrapped carton erection into a 3-D form, preparatory to fill. A continuous or discontinuous (time/amplitude) ‘controlled’ individual pneumatic pulse or pulse stream is envisaged for this.
Challenges arises in assembly, erection and contents fill of such JERRIBOX(™) containers. Thus conventional carton case erectors cannot handle collapsed JERRIBOX(™) containers without some modification. The Applicant has devised re-configured case erectors and a bespoke machine dedicated to bag erection and fill from a collapsed form within a collapsed carton.
For use on a fill line, in particular with diving or plunging head fillers, a protruding bag spout must be prevented from retreating into an outer carton by bag deformation and collapse. The Applicant's collar between bag neck and carton aperture captures and inhibits bag neck axial movement in relation to the carton.
Bag Orientation
Bag angular orientation or indexing within the carton is also a factor, particularly for rectangular bags. With a bag collar intervention between bag neck and carton, bag disposition reflects relative locations of bag and collar, along with collar and carton. Complementary inter-fitting, say rectangular, collar and carton aperture profiles inhibit relative collar and carton rotation. For bag neck screw closure fitment and tightening bag anti-rotation or anti-torque provision is desirable.
According to one aspect of the invention
a BIB carton comprises
a bag location and retention cartridge or capsule,
configured as a compact module,
mounted upon or entrained with a bag neck
for insertion from outside the carton,
into a (pre-formed) carton panel aperture.
Alignment & Anti-Torque
An optional feature is complementary inter-fitting collar and neck profiles. An example would be a serrated collar aperture and radial protrusions on a bag neck. These are conveniently disposed adjacent a bag neck ring which interacts with the circumference of a collar aperture, or an upstand rim there-from.
The module is self-contained and pre-fabricated—with bag ready for mounting and deployment. The cartridge can feature a bag location and retention collar such as previously devised by the Applicant, but adapted to facilitate bag installation—specifically by admitting bag (collapse) pre-fold.
It is easier to handle and insert a pre-collapsed bag into a carton than an erect one, with less risk of bag snagging, tear or perforation. Thus, such a cartridge represents an alternative to interleaving of flat bag and carton before erection—a technique also conceived and pioneered by the Applicant.
External Installation
A cartridge can be installed from externally of a carton—a radical departure from BIB convention. Indeed, the carton can be fully erected and sealed into a closed 3-D form, merely leaving exposed a modest profiled aperture for cartridge insertion. Thus carton completion need not be delayed pending bag installation.
Carton Profile
The carton aperture desirably has flat sides to contact corresponding flat sides on a bag collar. A rectangular aperture and collar bounding profile are convenient, but other flat-sided, polygonal forms could be used.
Complementary curvilinear forms might also be contrived, given consideration to geometry for mutual interfit, retention, location and anti-rotation.
Pre-formed Carton Aperture
A carton aperture to receive a cartridge—or rather its location and retention collar—is desirably pre-formed. Thus an aperture could be die cut as part of an elongate laid-flat strip 2-D carton blank, preparatory to folding over into a closed loop 3-D form.
Pre-Perforation of Carton Aperture Delineation
As an alternative to pre-cut out, a micro-perforated aperture delineation might be pre-imprinted as a weakening line into a carton panel. This preparatory local wall thickness reduction and weakening facilitate punch through displacement to reveal an aperture, upon cartridge forced insertion. One location is desirably at an edge between top flap and side wall—so as not to undermine stiffness—by contriving aperture bounding edges in orthogonal panel faces.
Push Fit Cartridge Insertion
Unusually for BIB, cartridge insertion can be undertaken for an assembled and closed carton, by push-fit and snap-action edge rim retention lugs.
Frangible Collapsed Bag Tie
A cartridge features a collapse (say concertina) folded bag disposed within a frangible or burstable enclosure, wrap or bag (of say thin paper), with optional bounding closure tie, and a location and retention collar entrained to a back neck.
Bag Within Collar Confines
A collapsed bag can sit within the bounding confines or footprint of a peripheral rim upstand of a cartridge collar, or as a snug cluster under a collar tray. The collapsed bag should be unencumbered by its temporary enclosure, to remain freely deployable—say, upon contents fill, with optional preparatory pre-inflation (air) pulse burst. A compact pre-assembled cartridge protects the bag until deployed within a carton and is more readily shipped, stored and handled—so better suited to automated mechanised assembly lines.
Cartridge Packing
Pre-assembled cartridges could be stacked upright in a grid array in a carton tray, readily accessible for pick-and-place collection by a robotic arm. A plunger nose penetrating the collar, or rather the bag neck aperture, could be used, or a modest suction, to grip a selected cartridge for withdrawal from its shipment packaging tray. A standard case erector could be adapted for full carton assembly, erection, end flap closure, bounding edge tape seal and/or panel bonding—preparatory to mechanised cartridge insertion by, say, a robotic pick-and-place arm.
Anti-Torque Bracing
A bag neck or spout must be braced against screw closure cap fitment and tightening to seal—otherwise the neck, and with it the bag, would twist and deform. This requires interaction between bag and box. The cartridge, or rather the collar part of the cartridge, has a reception aperture for bag neck insertion.
The collar aperture edge rim can be profiled as a slightly raised, resiliently deformable snap-action interfit with a threaded bag neck. Coarse circumferential segmentation or serration of such a collar aperture upstand rim and co-operative interaction or interfit with a complementary ribbed profile or at least radial lugs upon a bag neck collar.
Interfit of collar aperture recesses and bag neck ribs or lugs provides anti-rotational action and the interfit of a rectangular profile collar bounding edge with a rectangular carton aperture braces collar to carton. So overall, bag neck rotation upon threaded closure cap screw tightening is inhibited. The collar aperture upstand and bag neck collar abutment also inhibits bag neck retraction under downward load of, say, a plunging head filler.
Bag-Collar Entrainment vs Integration
Bag neck and collar can be mutually entrained discrete elements (with say snap action interfit of profiled collar aperture and bag neck) or integrated (say with a unitary moulding) upon bag production. Entrainment favours pre-assembly of a collar and collapsed back in a compact cartridge forma. Additional features could be integrated with the collar—say for carton retention and handling.
Integrated Clip
The collar desirably has an integrated retention ‘clip’ profile for interaction with carton panel edges. Clip action allows for spring action by resilient deformation of collar wall and/or carton panel edge.
Unitary Cartridge Module
The cartridge as a unitary module can thus clip—say with positive snap-action—into a carton wall aperture.
Recessed Tray Profile
The recessed tray profile with inset bag neck or spout of the Applicant's PCT/GB2004/002609 could be adopted. The tray serves for spillage containment and local carton wall protection. In that PCT case, options for integration of bag neck and collar and bag installation from outside a carton were envisaged.
The present invention provides improvements in modular wrap, location and retention. A tray collar preserves an overall rectangular carton profile with bag in situ and a spillage containment shield helpful as a splash guard in original contents fill and subsequent user pouring—card carton material being vulnerable to moisture wetting.
Collapse-Fold Bag+Collar
Pre-Wrapped Bag Cartridge
In a particular construction, a bag, pre-collapsed within frangible (paper) outer shroud, has a neck entrained or integrated with a locating collar. This pre-assembly is ready for installation as a unitary module into an aperture in a carton wall, such as a top closure flap and/or side panel.
Pre-Insertion
Such a bespoke collapsed bag and entrained locating collar can be pre-inserted—ie before bag inflation and contents fill. ‘Whole body’ insertion in a larger than conventional BIB carton (bag neck) aperture is envisaged. In some variants, (cartridge) insertion could be combined with a carton closure step—by co-operative interfit between collar and carton flaps.
Initial carton erection and closing could leave (part or fully) open top flaps for interaction with the collar, before flap closure and sealing. A so-called crash-lock top and bottom carton end flap configuration could be contemplated. This would admit of manual or simple mechanised operation—say with pre-glued panels for bonding on mutual flap (closure and overlay) contact.
Closure—Lock
The collar could itself form a carton (top flap capture) closure or lock. Such a closure might supplement, or even substitute for, conventional carton flap closure techniques such as tape or adhesive bonding.
Carton Re-configuration
The carton configuration admits of re-design over conventional end flap closures.
Collar—Carton Interfit
Thus, collar and split flap interaction could be substituted by collar and carton wall aperture interfit. Insertion action would reflect collar interfit—with, say, selective use of deflection, slide and/or rotation.
One-way Insertion
A one-way insertion mode would be desirable to inhibit inadvertent unseating and withdrawal under transit vibration, handling and bag inflation forces. Vigorous mix shaking as in paint industry use would be and example. An irreversible insertion without visible evidence of interference could serve as a tamper evident closure.
Manufacture—Moulding
As to collar manufacture, whilst low cost (tooling) vacuum forming techniques might be employed. For more elaborate forms, such as integrated clip, injection moulding is envisaged. Further features might then be incorporated in a common mould tool, without disproportionate cost. For longer runs, injection moulding would allow more elaborate feature integration—such as of collar and bag neck.
Recycling
Ready reversal of installation and/or break out and isolation of component elements upon BIB container discard after use lends itself to re-cycling. Thus a collar moulding and bag could qualify in the same plastics recycling category and are readily separated from the carton itself in another category.
Collar (Clip) Retention
The collar desirably features retention clips for interaction with carton panels or panel edges.
Discrete Clip
Discrete individual clips may be employed, say with a one-way spring wedge or detent insertion action. A serrated depending tang, spike or stud allows one-way insertion in a complementary panel aperture, by temporary deflection of panel edges—but inhibits removal by abutment with panel underside faces.
Edge Clip Profile
Alternatively, a fragmented or continuous resiliently deformable edge profile may be adopted. This profile is deflected upon insertion just sufficiently to fit within a carton panel mounting aperture, whereupon it springs back to inhibit withdrawal by engaging panel inside faces. Continuity may run around the entire clip periphery or segmented in juxtaposed runs along clip side edges.
Flex Floor
For a collar configured as a shallow tray, with a peripheral upstanding edge wall and top flange or lip overlay, a conical tray floor profile admits flexing. Reversal of such flexing to stable profiles on either side of an (unstable) flat plane in turn drives the walls outward or inward—for panel aperture insertion or location—retention.
Flexible Bag
Bag collapse pre-supposes a flexible bag (wall) —admitting rolling and/or folding without permanent set or damage and restitution of unfurled format.
Pillow Bag
A free-form so-called pillow bag—which is volumetrically compatible with, and whose outer profile conforms to, the inner profile of an outer carton containment—could be employed. That said, rectangular format bags, with seams dictating a pre-constrained outer profile, complementary with carton capacity, could be used.
Roll/Fold Orientation
A bag roll or fold axis orientation transverse and/or about the bag neck axis may be adopted. Bag orientation is facilitated by correction collar positioning and retention by carton closure. Alternatively, a concertina or successive mutual overlay, fold may be employed. Multiple individual fold axes, in selective combination across and/or along or parallel to a bag neck axis, could cumulatively contrive a compact cartridge form. Yet such a cartridge could be readily expandible—without snagging—in, say, the manner of a parachute, to an unencumbered, fully-deployed form, ready for contents fill.
Carton Configuration
An insertable from exterior bag-collar cartridge frees up top closure constraints upon carton configuration. Thus split top carton flaps could be replaced by a continuous wrap. Alternatively, multiple top flap configuration could be adapted for collar mounting—say to allow insertion in one plane, followed by insertion in another plane. Reliance would then still be placed upon a final taping of top and/or side flap seams to secure overall carton closure. Bag inflation could be contrived to promote carton (top flap) closure—ie a proportion of filled bag weight could be transferred through neck locating collar, to the top flaps. The collar itself could be configured to promote carton (top-side) flap closure.
Collar Portion Interfit
Discrete complementary opposed collar portions could be configured for co-operative locking interfit upon installation around a protruding neck spout.
Collar Slot—Slide Action
A collar edge slot could allow (lateral) sliding insertion of carton panel edges. Slot depth could allow either solid or corrugated carton card materials. Slot walls could retain a modest resilient spring action to grip inserted carton layers.
Split/Hinged Collar
A split and/or hinged collar configuration could facilitate installation and promote carton closure.
Frangible Restraint Tie
A restraint tie, such as a tape, band or cord, could wrap around a collapsed (rolled and/or folded) bag to preserve collapsed condition until severed or fractured preparatory to, or upon bag deployment. A ‘self-destruct’ tie, or overall bag wrap or sheath—ie one which failed (eg rupture or burst) upon intentional bag inflation load—could help protect the collapsed bag cartridge in the interim.
Sheath Format
A sleeve or collar sheath format would suit a cylindrical bag roll about the bag neck axis. A pneumatic pulse inflation could burst or rupture such restraint, without damage to the bag wall itself.
Inflated Bag—Split Collar Interaction
Bag inflation could promote or secure split collar installation by, say, bag top wall contact bias against a collar underside, to resist collar fold or collapse. Thus, for example, reversible cone collar floor action could be triggered by contact with inflated bag top wall shoulders, in turn to flip collar walls outward into secure location with carton top panel/flap edges.
Pre-tensioned Bag Wall
A bag wall pre-tensioned or biassed to impart an inherent roll-up or collapse fold tendency or pre-disposition could be contrived to keep a split collar ready for installation. That is, bag collapse into a compact pack would accompany collar element (re-)disposition.
Residual Contents Discharge
Once bag contents have been discharged, while the bag remains within a carton, the bag cartridge could be removed and the bag rolled and/or folded to promote residual contents discharge. A bag with a permanent memory or set for reversion to a collapsed form would impart contents discharge bias throughout its temporary storage role. Such a set could be imparted by differential local heat treatment and/or wall stretch or thickening upon initial bag fabrication such as from a continuous tube, or as post-fabrication treatment by applying a heated tool.
Flat Pack
Operationally, collapsed bag cartridges and collapsed cartons could be delivered to a fill location. This eases so-called ‘inbound logistics’ and minimises local storage space requirements. Bag cartridges suitable for a variety of carton shapes and sizes also simplify stock requirements.
Carton Liner
A bag cartridge is compatible with a carton liner, inserted upon initial carton erection, before end flap closure and before bag cartridge installation.
Retained Collar
A retained collar keeps a bag cartridge in place under disturbing vibrations in transit and supplements the effect of a filled bag weight in pulling the bag down inside a carton. Thus a combination of bag seat upon a carton base and hang from a collar seated into a carton top keeps the bag deployed and collar in place.
Bias Weight
A bias weight could be attached to a bag, say at a bottom edge, to promote bag deployment. An example would be a slab of dense material, or even the carton wall material in individual or multiple layers. A weight profile complementary to the inner carton wall profile would help bag and carton alignment. Rounded edge forms could discourage snagging between weight and inner walls. The weight could feature a cushion or pillow bag to absorb and dampen impact shock upon the carton.
Air entrapped below the weight could act as a cushion damper against the sudden impact shock of bag inflation or contents fill. An expandible profile mass, such as a base slab with fold-up/down peripheral walls, could be employed to fit within a carton inner profile upon bag deployment. This would preserve bag and carton mutual alignment and inhibit bag snagging.
Overall Costs
Overall a bag cartridge offers low fabrication and assembly costs—competitive with conventional BIB structures and rigid walled jerrycans.
Terminology—Cartridge—Capsule
The term collar is used herein to embrace either discrete element or integrated with bag neck formats.
There now follows a description of some particular embodiments of a bag cartridge with anti-toque profile according to the invention, by way of example only, with reference to the accompanying diagrammatic and schematic drawings, in which:
Bag Cartridge
NB . . . full bag erection is upon contents fill, with optional preparatory (air) pulse inflation—after bag insertion in a carton, as reflected in
NB . . . A particular example would be a paper bag, burstable upon a preparatory air pulse applied through the bag neck for bag deployment.
NB . . . Installation can be entirely from externally of a fully assembled, erected, closed and sealed carton.
That said, sliding insertion from one free side edge of a residual open top flap, pre-closure, remains an option—as reflected in
NB . . . A tapered entry nose clip profile allows ready one-way insertion, but an end abutment ledge inhibits inadvertent dislodgement or removal.
NB . . . bag profile could be adapted (say, locally waisted) to skirt around such a fence upon bag deployment, so the protective shield thereby afforded for a collapse folded bag does not impede or prejudicially deflect bag deployment.
Anti-Torque Provision
More specifically:
NB . . . a carton wall instep is depicted for collar support, but could be omitted in favour of a carton aperture corresponding to the collar footprint—reliance then being place d upon collar self-support span between aperture edges;
Bag Pre-Insertion in Carton
The intention is to depict the wider applicability of an anti-torque feature between collar and bag neck—for both pre-installed bag and collapsed bag cartridge formats.
It also follows that a bag, whether presented as an open face or flat-pack, or pre-collapsed, could be introduced from within a carton, or rather from an inside face of a residual open top flat, with a retention collar presented afterwards.
Taken in the context of the foregoing provisos . . .
More specifically:
The bag and carton interfit of
More specifically:
Reverting to the bag cartridge format, various cartridge and carton configurations and relative dispositions are explored in
More specifically . . .
Thus diametral slots in a bag collar aperture rim correspond to diametral ribs on a bag neck;
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NB the tie strip has an inherent weakness about the neck aperture—and advantage is taken of this for strip rupture upon bag inflation; a transverse diametral weakness to failure line is depicted in broken line, and indeed could be expressed as strip pre-perforation;
NB . . . Whilst a more robust card wrap strip could be installed between bag and neck collar, as with
More specifically . . .
NB . . . bag cartridges could be used for complementary contents—as, say, a promotional retail item, also useful upon consumption;
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NB . . . multiple carton contents could be depicted by carton marking or delineation;
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Such an arrangement would allow complementary contents fill, such as red and white wine (DUO VIN(0)™ or DEUXVIN™);
More specifically . . .
Thus a given bag cartridge diameter and variable expansion bag could suit a range of drum depths and attendant volumes—say, a 0.5, 1.0, 1.5 and 2.0 litre capacity for liquids from water or milk, through juice, to wine;
More specifically . . .
The initial flat format of bag and card allows compact stacking in a cassette format ready for assembly;
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NB . . . Collar As Carton Wall
Extended collar configurations could serve as carton side walls—ie not merely end wall closures. An example could be any of
Referring to the drawings . . .
The drawings are presented in a diagrammatic illustrative style, with simplification for ease of comprehension—it is believed without laborious detailed description, beyond the general principles outlined and taken with the component list.
An assembled JERRIBOX(™) BIB container 10—reflected in FIGS. 2B and 3D—features an outer carton 14 enshrouding an internal bag liner 11, with a protruding neck or spout 13 entrained by a location and retention collar 12.
Collar 12 serves to locate—and in the present invention also retain—in an aperture in carton 14. Collar 12 thus represents a ‘constructive intervention’ between bag 11 and carton 12. As the collar 12 is now united with a pre-collapse folded bag 11 in a so-called bag cartridge 20 according the present invention, overall a bag cartridge 20 interacts with a carton 12. Indeed, as will be described later, a bag cartridge 20 can substitute for what would otherwise be carton (side or end) wall.
Container 10 is assembled from pre-fabricated components or sub-assemblies. A principal sub-assembly of the present invention is a so-called bag cartridge, capsule or cassette module 20, combining a compact collapse folded bag 11 within a collar 12. Compact means that the bag 11 is collapsed to a format 21 within the footprint, span or embrace of a collar 12. Bag 11, and optionally part of collar 12, are within a protective temporary outer enclosure or wrap, such as a paper strip 90 (omitted for clarity in most Figures).
A principal assembly consideration is bag cartridge 20 installation by insertion from outside a pre-assembled carton 14. Traditional BIB has located a pre-filled bag into an open top of a partially pre-assembled carton. Earlier proposals have used a bag and carton united—even pre-joined (bonded) before assembly. It is envisaged that bag cartridge 20 could be produced off-site and simplify container assembly.
Bag cartridge 20 features a rolled and/or folded up bag 21, within a frangible strip wrap 90, or optionally secured by a (temporary) frangible tie band 22. Diverse roll and/or fold bag collapse modes are tenable—such as the transverse (to neck axis) roll of FIGS. 1A-1C—but a prime fold sequence is elaborated in
A thin-wall bag 11 is vulnerable to snagging, puncture or tear, but when collapsed or gathered—say rolled or (reverse/concertina) folded—to within compact format 21 presents a more robust massed ‘bulk’. Thus a bag compact 21 is a robust self-contained element, not dependent upon carton 14 for its integrity. A seamless or freeform pillow bag 11 format could be employed. This differentiates it from past bonded bag and carton outer panels, such as GB959306.
Collar 12 could be a discrete element entrained with, or captive upon, neck 13, say by a retention rim, shoulder washer or circlip. Alternatively, an integrated neck 13 and collar 12—as a unitary element (along with depending bag) could be contrived—say as part of bag production. Integration frees up collar 12 and neck 13 design—to admit more diverse forms.
A band or strip tie 22 would spread wrap loads over the bag 11 wall, to obviate local constrictions or kinks. An overall sleeve or collar would also serve. Alternatively, a draw cord running through external bag wall loops or pocket seam could be used.
The basic elements of bag cartridge 20, bag 11, bag compact 21, collar 12 and carton 14 admit of considerable variation—which is explored, albeit not exhaustively in the drawings, which concentrate upon simpler formats believed generally self-explanatory on their own account and in conjunction with the component list footnote hereto.
Thus
Installation—Operation
It is envisaged that a light-weight, ‘pick-and-place’ robotic arm 81 mounted upon a traveller rail 83, would pick up a pre-prepared bag cartridge 20 from a storage dispenser, such as a feed chute, or a pre-packed matrix tray assembly (not shown*). The bag cartridge 20 would be gripped by the neck 13 or collar 12 and a temporary sealing connection made to a pneumatic supply in readiness for bag inflation.
Selected bag cartridge 20 would then be carried to a carton 14, aligned and inserted—by, say, a translational and/or rotational (twist) action into a carton aperture 24.
A precise pneumatic pulse would be applied to inflate and deploy the bag 11 until firmly and snugly up against a carton 14 inner walls. The operation would allow controlled bag positioning, orientation and deployment.
Bag Cartridge Retention
Bag cartridge retention is desirably supplemented by bag 11 inflation and/or contents fill. Thus, say, a bag top shoulder could bias collar locking—say, from below.
A larger collar could allow bag cartridge utilisation for BUCKET BOX™ style containers, with an access aperture span at, or close to carton footprint.
Larger collars and apertures offer even greater control over bag location and orientation, for satisfactory and consistent deployment. Diverse closure styles, not necessarily screw closures, but flip lids, could also be adopted, say to mirror user familiarity with metal cans or plastics tubs or buckets with integrated handles.
Wine Box
A closure with control valve, such as a wine box ON/OFF tap stopper could be substituted. A pop-up, retractable neck or spout could be contrived with bag 11 inflation and/or fill—so the bag 11 provides a spring cushion support. A conical profile, resilient collar upstand could impart a spring up or down action to a captive bag neck. For wine-box use, a tap stopper could be carried. Neck installation mid-carton footprint would provide centrally disposed access.
Anti-Torque
A rectangular or flat-sided collar 12 profile could locate within a rectangular carton top panel aperture—for anti-torque resistance to screw closure tightening upon fitment.
Cartridge Wrap
A one-sided or overall cartridge thin layer, peelable (shrink) wrap may be fitted for secure pre-installation. A frangible sheet gauge, allows rupture upon bag inflation and unroll/unfold without impediment.
Grip or Handle
With due consideration to entrainment clip loading and top panel closure security, a locating collar profile may incorporate a finger grip recess or cut-out to the inside of a bag neck, to facilitate carton tip and pour. Alternatively, a recessed, but pull-up, movable handle may be incorporated in the collar—if cost considerations allow. Handle or profiled finger grip cut-outs may also feature in carton wall panels.
Neck/Spout Disposition
A neck or spout may be offset to one side of a bag top for larger capacity bags lending themselves to tip and discharge pour from one side. For smaller, say milk or juice, carton sizes readily grasped single-handedly, a neck may be disposed more centrally, say marginally to one side of a longitudinal (upright) axis.
Bucket or Bin
For a more squat container profile, such as a bucket or bin, a larger span bag neck and locating collar would suit. A top opening and closure might span a major part, if not the entirety, of a container footprint. The collar could then play a greater structural role in the overall container.
Bag Seam Disposition
Bag panel fabrication (weld) joint (reinforcement) seams may be co-operatively disposed with carton corners or panel junctions. Thus, say, a bag seam may be disposed diagonally between opposed carton corner edges.
Bag Orientation+Deployment
Bag orientation is facilitated by collar alignment upon collar 12 insertion into a complementary carton aperture 24 and bag 11 deployment by pneumatic inflation. Collar 12 and bag neck 13 interfit and orientation are explored in
An individual JERRIBOX(™) BIB container 10 features an outer carton 14 enshrouding an internal bag liner 11, with a protruding neck or spout 13 entrained by a location and retention collar 12. Collar 12 is configured as an open-sided shallow tray 29, with upstanding peripheral side and rear walls 27 with top rim flange 28 surmounting a carton top panel 25/32/37. An open front face is thus exposed between out-turned front face flanges surmounting a carton front wall panel 33. This provides clearance for contents discharge pouring from neck 13 and allows drainage of spillage containment upon collar floor 29 by collar walls 27. An optional depending spill lip flange also wraps the upper margins of carton front face. A collar floor 29 upstand 17 interacts with a neck 13 base shoulder retention ledge, rim or shoulder 15. Upstand 17 depth is chosen to accommodate carton wall thickness, whether solid or corrugated.
Carton 14 features an inset top recess at one side.
Anti-torque features of bag neck 13 and collar 12 are more apparent from
Co-operative tongue/rib 19 and notch/slot 18 interaction can also serve for collar 12 entrainment upon bag neck 13, with carton wall sandwiched therebetween—as is more apparent from
Rotary indexing and entrapment of neck 13 and collar 12 could also be contrived by complementary interfit of collar upstand 17 and neck shoulder 15. That is ribs 19 and slots 18 could temporarily align for collar mounting then misalign for collar 12 capture. Modest bag 11 pre-twist and then relaxation rotation would suffice to accommodate such indexing. Alternatively, a separate locking collar or circlip (not shown) could be fitted to neck 13 after collar 12 fitment, to retain collar 12 securely in place.
Only a marginal local base stem (shoulder) portion of neck 13 below closure cap location threads need have locating ribs 19. Ribs and slots alternate on both collar 12 aperture 16 and neck 13 stem. Effectively, complementary serrated or ‘dog-tooth’ neck 13 stem and collar 12 aperture 16 profiles co-operatively inter-fit and interact.
A bag 11 and carton 14 assembly sequence, culminating in capture of bag neck 13 by locating collar 12 is reflected in
The carton 14 is pre-assembled as a sleeve wrap and collapsed bag 11 inserted from one open end. An alternative envisaged in a companion patent application of the Applicant is carton 14 wrap about a web fed flat bag 11.
Thus, more realistically, both
In principle, a pre-fitted closure cap 88 could be inserted, along with bag neck 13—with collar 12 aperture 24 sized to pass over it, so a closed rather than open-ended bag neck is located. That said, again, closure 88 fitment is traditionally post fill—so removal pre-fill and reinstatement would be additional—and redundant—steps, particularly for carton assembly close to a fill station. A temporary cap might be installed to prevent contamination of bag inner capacity. Alternatively, a temporary neck cap seal, removed and discarded or punctured upon fill, might preserve bag internal condition—say for contents for human consumption, such as edible oils. A sterile bag could thus be contemplated.
A discrete cruciform footprint liner might be located between internal bag quadrants, for mutual isolation and (end-to-end) stiffening, bracing and support. Segmentation of the carton itself is an option—with discrete carton quadrants (with respective internal bags) entrained within, say, a shrink-wrap sheath. Again, each quadrant has a dedicated neck, location and retention collar.
Collar profiles admit of variation from rectangular profiles, as explored in
Neck/Spout Disposition
A neck or spout may be offset to one side of a bag top for larger capacity bags lending themselves to tip and discharge pour from one side. For smaller, say milk or juice, carton sizes readily grasped single-handedly, a neck may be disposed more centrally, say marginally to one side of a longitudinal (upright) axis.
Bag Seam Disposition
Bag panel fabrication (weld) joint (reinforcement) seams may be co-operatively disposed with carton corners or panel junctions. Thus, say, a bag seam may be disposed diagonally between opposed carton corner edges.
Mix ‘n’ Match
Features described may be variously mixed and matched to suit operational requirements. It is not feasible to show every such permutation or combination of features.
Phrases bracketed—vis {. . . }—alongside claim numbering—are for ease of reference and as such form no part of claim interpretation or scope.
Carton Configuration
Although predominantly rectangular or polygonal flat sided cartons have been described and illustrated, as more readily fabricated from initially flat sheet material, curvilinear forms might be contemplated. A prime curved form would be a cylindrical wrap—say about plastics end caps with integral bag location collar functionality.
Indeed full-span end caps could dictate an outer cross-sectional form or footprint, with variable spacing to accommodate differential sleeve depth. This could apply to diverse end cap profiles, including rectangular, polygonal segmented, arcuate circular, oval or conic sections. An intervening sleeve set between opposed end caps could be simpler than a conventional carton, with potentially less material usage or waste and more flexible assembly. A carton sleeve could be severed to a desired length from a continuous extruded tube.
Pre-formed tubes of pre-impregnated or pre-sealed material, such as employed with TETRAPAK(™) cartons could be employed. Along with a sealable bag, this could provide a measure of double seal protection—albeit contingent upon sealing interfit of end caps and intervening sleeve.
Bag-Liner Configuration
Similar considerations of variant form apply to the bag or liner. Whilst generally complementary bag and carton forms may be desirable to usable maximise internal volume or capacity, disconformity may be employed to leave free pockets for other uses. An example would be supplementary discrete cushion bags for impact or drop resistance—putting to advantage a gap between carton and bag walls.
Unification
Although bag and carton have been shown as discrete elements, carton panels and bag walls could be conjoined or united locally, or even integrated. Such unification could be upon inter-assembly and bag pre-inflation or contents fill.
Sleeve Bag
A bag could be configured as a hollow sleeve, admitting both internal and external carton sleeve disposition in an overall carton-bag-carton sandwich. Such a composite sandwich form could be inflated or contracted whilst retaining relative disposition of elements. A bag neck could be disposed in mid carton wall span. A neck collar could be configured as a surrounding guidance funnel into the back neck. This could be helpful for drainage into a bag from an overlying reservoir. Thus, say, a used oil container could be contrived in a sump drain format for sealed waste disposal.
Number | Date | Country | Kind |
---|---|---|---|
0424680.7 | Nov 2004 | GB | national |
0424810.0 | Nov 2004 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/GB05/04313 | 11/8/2005 | WO | 00 | 1/28/2008 |