Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D25/00—Details of other kinds or types of rigid or semi-rigid containers
  • B65D25/14—Linings or internal coatings
  • B65D25/18—Linings or internal coatings spaced appreciably from container wall

Definitions

• the present invention relates generally to com- posite container constructions and more particularly, to a composite container that is specifically designed to be hermatically sealed for containing vacuum packaged pro ⁇ ducts.
• the compo ⁇ site container consists of an outer container that has some type of strength characteristics and an inner liner which is normally of a flexible plastic material that can be hermatically sealed.
• An example of an earlier version of a composite container is shown in U. S. Patent No. 2,338,604.
• the typical pouch construction consists of a layer of polypropylene at ⁇ tached through an adhesive to an aluminum foil layer with a further polyester layer adhesively secured to the opposite surface of the foil.
• the aluminum foil provides the oxygen barrier resistance that is required for packaging such products while the polypropylene is utilized to provide chemical inertness for the product and the polyester layer produces the necessary mechani- cal strength for the pouch.
• pouches of this type when used for packaging food products, is the fact that the relatively flexible package slows the filling speeds of the filling line and therefore, increases the cost thereof.
• pouches of this type require a special system that will provide a mechanical support for the pouch during the heating or processing operation for the contents.
• a further problem that has been encountered with the pouch type package is the fact that the pouch does not have sufficient rigidity to be self-supporting without collapsing during shipment and display.
• most pouches that are utilized for packaging, particular ly food products are, of necessity, placed in an outer cardboard or other carton for shipment and display pur- poses, adding to the overall cost of the package.
• a containe has been developed which has less structural requirement than a conventional metal can without sacrificing fillin speeds such as occur when using flexible containers.
• the container of the present invention com ⁇ prises a composite container construction including an outer container that has a bottom wall and rigid side wall with an open top and.an inner non-metallic containe or liner having a closed bottom wall and a side wall whi corresponds substantially in configuration to the outer container and has an open top for receiving a product.
• the inner and outer containers are attached to each othe along the upper open peripheral end and are separated throughout the remaining area.
• the outer container pro ⁇ vides structural rigidity to meet stacking and abuse resistance requirements ⁇
• the space between the two containers is initial ly vented to the atmosphere through an opening in the outer container so that the inner container can expand and contract in response to positive and negative pres ⁇ sures applied to the inner surface- of the container from a product during filling and processing of the product.
• the composite container also includes a cover for sealing the open end of the inner container or liner after insertion of the product.
• the inner container is adapted to receive the product during .a normal filling process and normally has a negative pressure or vacuum applied thereto after the product has been inserted therein to remove all of the "head space" oxygen before the container is sealed. Also, the product is many times processed after it has been inserted into the container and a vacuum seal has been applied.
• the container construction of the present in ⁇ vention allows the inner liner to expand and contract during heating and cooling of the product while the outer container remains substantially at atmospheric pressure both on the inside surface and the outside surface thereof to reduce the forces that must be encountered by the outer container and the outer container is later sealed.
• the inner and outer containers are both formed in a ther o- forming operation and the inner container has a rigid peripheral ring surrounding the open end thereof while the outer container has a peripheral rim along the upper open end thereof.
• the rim and ring are constructed such that the ring can be snapped onto the outer container and releasably retained thereon.
• the cover preferably includes a heat sealable plastic film that is heat sealed to a surface of the ring prior to insertion of an overcap over the ring which is releasably retained thereon and can be utilized as a cover after the film has been removed for gaining access to the contents.
• the periphery of the film is heat sealed to a flat surface that is defined in a recess extending from the upper surface of the ring
• the overcap portion of the cover is specifically configured so that the periphery of the film is clamped between the cover and the surface on the ring to assist in preventing the destruction of the seal during processing of the produc
• the ring has peripheral threads formed integral with the outer surfac of the ring and the overcap has cooperating threads so that the overcap can be threadedly secured and easily removed.
• the plastic film may be used if desired. However, in some processes it may not be necessary to provide a separate sealing film in addition to the overcap.
• the ring has a sealing surface that is located on the periphery thereof and extends axially of the inner con ⁇ tainer with the cover film heat sealed to this surface to aid in resisting forces that may be encountered dur- ing packaging and processing of the product. The cover engages and grips the sealed area of the film to assist in resisting shear forces that are encountered by the seal while locating the seal in such a manner that it cannot be contaminated by the filling operation which could result in an ineffective seal.
• the outer container is a conventional three piece metal container that has an end doubled seamed to one end ther of.
• the opposite open end is adapted to receive the inner container or liner which can be temporarily secure to an outwardly directed flange thereon for temporarily holding the liner during the filling process.
• the uppe edge of the liner and the periphery of an end or closure are doubled seamed to the upper end of the outer contain so that the inner liner remains completely unattached from the outer container except around the upper peripheral edge thereof.
• the space between the inner and outer containers is again vented so that the inner liner can expand and contract to response to variation in pressure within the inner container while the outer container defines a rigid structure which provides a secondimpermeable barrier upon the later sealing of the vent.
• the composite container allows for reduction in the structural requirements for the outer container and the end and wall thickness can be reduced by as much as 50% while the lead contamination problem is eliminated because the product does not come in contact with the lead seam.
• the composite container includes a further or third intermediate liner between the inner and outer container components and the various liners may be formed from different materials having different characteristics.
• the cover can either be snap fitted onto the upper end of the container or alter ⁇ natively may be hingedly secured along one edge.
• the inner container is filled prior to attaching the cover by a heat sealable plastic film, which could also be connected through a hot melt or other types of adhesives, depending upon the chemical composition of. the film as well*as the surface to which it must be sealed.
• FIG. 1 is an exploded perspective view, parti ⁇ ally in section, showing a container constructed in accordance with the present invention
• FIG. 2 is an enlarged fragmentary sectional view, as viewed along line 2-2 of FIG. 1, showing container in its final sealed condition;
• FIG. 3 is a view similar to FIG. 2 showing a slightly modified form of the invention
• FIG. 4 is a view similar to FIG. 1 showing a * further modified form of .the invention
• FIG. 5 is a cross-sectional view, as viewed along line 5-5 of FIG. 4;
• FIG. 6 is a cross-sectional view of a further modified form of container construction
• FIG. 7 is an exploded perspective view of a still further modified form of the invention.
• FIG. 8 is a fragmentary cross-sectional view of the container illustrated in FIG. 7 and shown in the closed and hermatically sealed condition.
• FIG. 1 of the drawings discloses a container, generally designated by reference numeral 10 , having a cover generally designated by reference numeral 12.
• Container 10 consists of an outer shell 14 which may be of a variety of materials and has been illustrated as be ⁇ ing a thermoformed plastic container that has an integral side wall 16 and a unitary end wall 18 on one end thereof with an opposite open end.
• the outer container 14 is preferably formed from a material that is oxygen imper ⁇ meable and has a rim 19 formed around the open end by reverse bending the upper edge of side wall 16.
• the outer container may also be light impermeable.
• An inner container 20 consists of substantially cylindrical side wall 22 having an integral end wall 24 both of which conform generally to the configuration of the outer container 14.
• the inner container has a rigid ring 26 at the upper open end thereof and the ring de- fines a substantially U-shaped downwardly directed channel 28.
• the side wall of the inner container 20 also has a corrugated portion 30 and is attached to the outer- container by having the ring 26 snapped over the peripheral rim 19 around the upper opened end of the container shell 14.
• the entire inner container is free from the outer container 14 except along the upper peripheral edge thereof and conforms to the outer contain ⁇ er while the corrugated portion allows the inner container to collapse due internaal negative pressure resulting under certain conditions, as will be explained later.
• a collapse or flexing inward is desired since under Boyles law as the volume is decreased the pressure will increase and the differential pressure to which the inner container is subjected to will be less.. This .allows the use of thinner walled inner containers.
• the inner or the upper peripheral rim 19 of outer container 14 is sub ⁇ stantially U-shaped in cross-section and defines a down ⁇ wardly directed lip or ledge 32 around the upper perimeter
• the substantially U-shaped ring 26 has an inwardly directed lip or ledge 34 that engages ledge 32 to securely hold the inner con tainer shell 20 onto the outer container shell 14.
• the molded inner container shell 20 may also have an outwardly directed rib 36 that engages the lower inner surface of rim 19 to securely lock the inner con ⁇ tainer 20 with respect to the outer container 14.
• the inner container * or shell 20 is also pre- ferably formed from a thermo plastic material which may be thermoformed on a mass production basis. It is pre ⁇ ferred that a solid state pressure thermoforming process be used so fabrication can take place just prior to the material reaching the plastic state so that biaxially oriented product is produced. A process of this type is disclosed in U.S. Patent No. 4,172,875.
• the cover 12 consists of an inner liner 40 which preferably has its peripheral edge heat sealed to an upper surface of plastic ring 26. As illustrated in FIG. 2, the upper inner peripheral surface of ring 26 ha a recessed portion to define a substantially flat peri ⁇ pheral ledge 42 surrounding the upper open end of inner container shell 20.
• the liner or heat sealable plastic film 40 is preferably heat sealed to ledge 42 to hermati cally seal the inner container 20 from the atmosphere.
• the cover also includes an overcap or member 44 which is again attached to the upper peripheral open end of con ⁇ tainer 10.
• the overcap or cover 44 has a downwardly directed flange 46 around the periphery thereof, the lower end of which has an inwardly directed rib 48.
• Rib 48 is adapted to be snapped over the outer pheriphery of ring 26 and engage a lower edge 50 on the lower periphery thereof to releasably retain the over- cap on the container.
• the overcap protects the film fro damage and permits stacking without subjecting the film to stacking forces.
• the overcap 44 is designed to assist in maintaining the hermatic seal between the plastic film 40 and the inner container 20. As illustrated in FIG. 2, the cen- tral portion 52 of the overcap 44 is displaced downwardly from the upper peripheral surface of overcap 44 by a dimension that is substantially equal to the depth of the recess defining ledge 42, less the thickness of film 40.
• recessed circular flat portion 52 overlaps with ledge 42 so that, when the overcap is in the position illustrated in FIG. 2, the peripheral edge of recessed or dished portion 52 engages the periphery of film 40 and clamps the film between the ledge 42 and the inner surface of center portion 52.
• This feature substantially increases the forces that can be encounter ⁇ ed by the heat seal between the film 40 and the adjacent surface of ledge 42 since the film is essentially gripped between the overcap 44 and the ring .26.
• the container described, above normally is initially assembled by having the inner container 20 positioned within the outer container 14 and attached by the rim. The product is then inserted into the inner container and the film 40 is heat sealed to ledge 42 while a vacuum is being applied to the interior of the con ⁇ tainer to provide a vacuum packing of the material.
• OMPI •
• a hot product is inserted into the container * and sealed and a negative pressure is created as the product cools.
• a cold product may be inserted and the container vacuum sealed. The sealed container and product are then heated which causes the product and th inner container to expand and then contract when the product is cooled.
• one of the problems en— countered with containers- of this type is to have the ability of the container to withstand positive and nega ⁇ tive pressures during the processing of the product within the container.
• the composite container constructed in accordance with the present invention has vent means between the inner and outer containers to vent the space between the two containers during filling and processing of the container.
• the bottom wall 18 of outer container 14 has a vent opening 60 ther in which * provides communication from the space between the two container shells to the atmosphere.
• the outer container provides sufficient rigidity so that filling speeds are not impaired as is the case with flexible containers or pouches.
• the inner container wholly con ⁇ forms to and is supported by rigid outer container.
• the container of the present invention can readily have the product inserted therein, vacuum applied to the interior of the inner container to remove all of the oxygen therefrom and then have the inner lid or film 40 heat sealed to the upper edge thereof.
• the sealed container can be utilized for processing of the product by applying heat thereto or submersing the product within the container in heated water. During such time, the expansion of the product as it is being heated will be absorbed by the inner con ⁇ tainer without subjecting the outer container to any significant pressures since the space between the inner and outer container is still maintained at atmospheric pressure through the vent opening 60.
• the inner container will again be sub- jected to a negative pressure which will cause the con ⁇ tainer to collapse in a controlled manner while the space between the two containers is still maintained at atmospheric pressure.
• the vent open- ing can be sealed by a suitable sealing element 62 such as a foil tab, a hot melt, or any other suitable seal that is impervious to oxygen so that the outer con ⁇ tainer will act as an oxygen barrier betveen the atmo ⁇ sphere and the product.
• the seal, such as tab 62 could be utilized for insertion or injection of a
• O PI controlled or inert gas between the inner and outer structures prior to being sealed off and providing an oxygen barrier. This may be particularly beneficial in strengthening the outer container against abuse resistan while improving column load strength with ultra-thin sid wall thickness. Another variation would be to insert an absorbent material between the liner and outer container that could absorb gases that might permeate the liner. In the case of coffee packaging, vacuum packed coffee ma -generate carbon dioxide gas during storage and displ ⁇ ay.
• This carbon dioxide could be absorbed by the absorbent material should it migrate through the inner container.
• the inner container can be removed and placed into a micro ⁇ wave oven, since the inner container contains no metal.
• cover 44 can be used to reclose the inner container for storage of the product if it is not all consumed when film 40 is removed and film 40 may be translucent to permit viewing of the product.
• FIG. 3 A slightly modified form of the invention is illustrated in FIG. 3 which is similar to FIG. 2.
• the outer container 14 is substantially identical to the container illu ⁇ strated in FIGS. 1 and 2 while the inner container is modified as will now be described.
• the inner container consists of a sub ⁇ stantially rigid ring 26a that is preferably formed from a plastic material that has heat sealing characteristics and again has a recess 70 defining a ledge 72.
• the inner container consists of a flexible bag or pouch 74 that has its upper peri ⁇ pheral edge heat sealed to the inner surface of ring 26a.
• Pouch 74 is preferably formed from a plastic polyolefin film such as polypropylene and two sheets of such film are heat sealed along their edges and bottom so that they can be separated to conform generally to the shape of the outer container.
• the upper ring 26a has threads 75 formed on the outer peripheral surface thereof while the overcap 44a has cooperating threads 76 formed on the internal peripheral surface thereof.
• the cover in the embodiment illustrated in FIG. 3 again includes a heat sealable film 78 that is heat sealed to ledge 72 in the same manner as that dis- closed in the embodiment of FIGS. 1 and 2.
• the overcap 44a again has a dish portion 52a that has its periphery in engagement with the heat sealing connection between film 78 and ledge 72.
• the outer con- tainer 14 has a vent opening 60 so that the flexible pouch 74 can expand and collapse when positive and nega ⁇ tive pressures are applied to the interior of the pouch during the filling and processing of the product therein.
• FIGS. 4 and 5 A slightly further modified form of the inven- tion is illustrated in FIGS. 4 and 5 and again consists of an outer container 14b that is substantially identical to container 14 with the exception of the upper rim 19b which is in the form of a curl, as more clearly illu ⁇ strated in FIG. 5.
• FIGS. 4 and 5 A slightly further modified form of the inven- tion is illustrated in FIGS. 4 and 5 and again consists of an outer container 14b that is substantially identical to container 14 with the exception of the upper rim 19b which is in the form of a curl, as more clearly illu ⁇ strated in FIG. 5.
• FIGS. 5 A slightly further modified form of the inven- tion is illustrated in FIGS. 4 and 5 and again consists of an outer container 14b that is substantially identical
• the inner container 20b has a corrugated lower wall 80 which is collapseable and expansible to accommo ⁇ date negative and positive pressures within the inner container and performs the same function as corrugations 30 in the embodiment illustrated in FIG. 1.
• the inner container 20b is preferably thermo- formed from a heat sealable plastic material while the outer container 14b again has a vent opening 60b in the lower wall thereof which is closeable by a plug 62b after the contents have been inserted into the inner container and sealed and processed.
• the heat sealing of the cover film to the inner container occurs at a location which will aga assist in preventing destruction of the seal when posi- tive or negative pressures are applied within the seale container.
• the ring 26b has a peripheral surface 82 which extends substantially par allel to the axis of the circular container and has an enlarged portion 84 located above surface 82.
• the cove film 86 extends across the upper surface of the rim or ring 26b, downwardly over the enlarged portion 84 and i juxtaposed relation to surface 82 where it is heat seal ⁇ ed to the surface. During the heat sealing, the film will conform to provide a tight seal along enlarged portion 84 and a hermatic seal along surface 82.
• overcap o cover 88 has an upper flat wall 89 which engages the upper flat surface of film 86 and a peripheral depending flange 90 having an enlarged portion 100 at the lower end thereof.
• the enlarged lower end portion 100 defines a ledge 102 that cooperates with a corresponding ledge 104 on ring 26b.
• the heat sealed area between film 86 and rim 26b which also could be a hot melt or other bonding agent, extends axially of the container outside' ring 26b and the overcap 88 is in extended engagement with the sealed area between the film 86 and the rim 26b It will also be appreciated that since the sealing area is located outside the filling area on the outer surface of the ring, contamination of the seal from the product during the filling operation is substantially eliminated
• the seal In its sealed condition, the seal will have a high shear strength and a weak peel strength since the peeling of the film will result in forces perpendicular to the sealing surface rather than tangentially thereto.
• a suitable tab 106 may be attached to the periph ⁇ ery of the film for removal when the contents are to be removed.
• the upper end of the outer container is necked in to reduce the material requirements for the cover and could be necked in sufficiently so the periphery of the reclosable cover would be within the confines of the periphery of the side wall of the outer container to simplify handling and processing of the filled containers.
• FIG. 6 A further slightly modified form of the inven ⁇ tion is illustrated in FIG. 6, wherein a conventional 3-piece metal can 110 is utilized as the outer container and includes a cylindrical body 112 having an end 114 double seamed by a seam 116 to the lower end thereof.
• the end 114 has the vent opening 118 which is closed by a plug or other member 120, as will be described later.
• the inner container 122 is preferably a flexible poly- olefin plastic such as polypropylene, which is formed as a flexible bag or pouch.
• the upper peripheral edge of the outer container initially has an outwardly directed flange (not shown " ) extending substantially perpendicular to the axis of the cylindrical body 112 which is subsequently utilized in attaching an upper end 124 by a double seaming 126.
• the inner flexible bag or container 122 is initially bonded to the outwardly directed flange prior to insertion to the product therein and conforms gener- ally to the ⁇ configuration of the outer container.
• a product may then be inserted into the inner bag 122, vacuum applied thereto and upper end 124 doubled seamed thereto as illustrated at 126 with the double seam also incorporating the upper peripheral edge of bag 122 to provide a seal between the upper edge of the outer con ⁇ tainer 110 and the upper edge of the bag 122.
• Vent ope ing 118 is unobstructed during the filling and seaming process so that the space between the inner and outer containers is vented to the atmosphere to allow the bag to expand and contract during filling and processing while the outer container is exposed to atmospheric pressure on both the inner and outer surfaces.
• the plug 120 is inserted into vent opening to provide a substantially oxygen impervious outer contain er which need not be of sufficient rigidity to be subje ed to the negative forces encountered by the inner flexible bag.
• th container 110 when th container 110 is used for vacuum packaging of products, such as coffee and vegetables, the conventional corruga tions on present day containers can be eliminated and t wall thickness of cylindrical body 112 can be substanti ally reduced to reduce the cost of the container.
• Fur ⁇ thermore, lead contamination which has become a severe problem recently, is eliminated because the product is not exposed to the surface of the metal container.
• the coating requirements for the inner surface can be reduced and in some instances eliminated.
• the outer container side wall seam 113 may be produced by several methods such as soldering, welding, gluing. Its preferential use would be tinless steel for the outer container so as to reduce cost as tin, which is a component of solder, is becoming a scarce element. Such tinless steel is referred to as black plate or tin free steel, which is steel with a chrome oxide coating t provide corrosion resistance comparable to tinplate.
• a present day conventional three pound coffee can is made from a 107 pound (0.1177 inch wall thickness) tin plate coated steel having corrugations intermediate op ⁇ posite ends.
• a 55 pound (0.0605 inch wall thickness) can be used without corrugations for the outer container without sacrificing buckle and collapsing strength.
• the outer containe 130 has a substantially rectangular side wall 132 and has a flat bottom wall that is integral therewith.
• the outer container 130 is thermoformed from a plastic material that has heat sealing capabilities.
• the upper peripheral edge of outer container 130 prefer ⁇ ably has an outwardly directed flange 134 (FIG. 8) and a lip 136 that defines a locking recess 138, as will be described later.
• the composite container also includes an intermediate container or shell 140 that conforms generally to the configuration of the outer container or shell 130 and also has an outwardly directed flange 142 at the upper peripheral edge thereof.
• a third or inner thermoformed plastic container 144 again conforms to container shells 130 and 140 and has an outwardly directed flange 146.
• a suitable plastic film 150 preferably having heat seal ing characteristics is " adapted to be heat sealed to the exposed peripheral surface of the flange 146 of the inner container 144.
• an overcap or cover 152 has a pair of flanges 154 at opposite edges thereof which cooperate with recesses 136 to releasably retain the cover 152 on the container after the product has bee inserted and the film 150 heat sealed to the open end thereof.
• the cover could also be attached along one edge by an integral flexible hinge to flange 134.
• thermoformed multilayer composite container as illustrated in FIG. 8 that are separately formed and then inserted within each other are numerous.
• the various separ ate plastic parts could be formed from different materia that would not be compatible with each other when formed as a laminated structure.
• the outer container shell 130 could be formed from a foamed type plastic material that has little or no permeation resist- ance while the intermediate liner or container shell 140 could be formed from a highly permeation " resistant plastic material that would be an excellent oxygen bar ⁇ rier while the inner container shell 144 could be formed from a polypropylene that is highly stable and will not - contaminate the product ultimately inserted therein.
• the venting of this type of design can be ac ⁇ complished in several ways. The first would be to utilize the poor permeation resistance of the outer container and would permit expansion and contraction of the inner liners as the positive and negative pressures are develop ⁇ ed in the filling and storage of the containers. If a nonpermeable outer container is used then the predescribed methods of providing a vent hole (not shown) in-the outer container and subsequent sealing may be utilized. Still another variation would be to vent through an air passage ⁇ way channel 151 located between outer container flange 134 and intermediate container flange 146. The air space 153 between outer container 134 and intermediate container 140 is thus vented to the atmosphere through channel 151 and past film 150 before sealing of film 150 to upper peripheral surface 155 on outer container 130. Film 150 may be sealed to the top inner container flange 146 after filling but its peripheral area is not to be sealed to outer container surface 155 until after necessary venting is accomplished.
• the containers constructed in accordance with the present invention are capable of withstanding increased buckle pressures. such as for example, when " the filled container is droppe because it is believed that the liner expands inside the container and the product produces a positive pressure on the side wall of the outer container to strengthen the side wall.
• Containers as illustrated in FI 6 were produced and. packed with green beans prior to " retorting for 20 minutes at 250°F in a pressurized retor After cooling, the samples were examined. Control cans had nine inches of vacuum as did variables with no vent holes. Samples with vent holes had significantly reduce vacuum and all cans were examined for leakage or rupture of the liner with none detected illustrating support of the liner by the outer container in the positive pressur mode and the ability of the liner to contract in the negative pressure mode.
• film is intended to encompass a single sheet or a composite structure such as a laminated sheet.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Packages (AREA)

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• 1981
  • 1981-04-16 WO PCT/US1981/000501 patent/WO1981003163A1/en unknown
  • 1981-04-16 EP EP19810901427 patent/EP0050667A1/de not_active Withdrawn
  • 1981-04-16 GB GB8137786A patent/GB2090220A/en not_active Withdrawn

Non-Patent Citations (1)

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