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EP1075424B1 - Hot-fillable and retortable flat panelled container - Google Patents

Hot-fillable and retortable flat panelled container Download PDF

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Publication number
EP1075424B1
EP1075424B1 EP00917678A EP00917678A EP1075424B1 EP 1075424 B1 EP1075424 B1 EP 1075424B1 EP 00917678 A EP00917678 A EP 00917678A EP 00917678 A EP00917678 A EP 00917678A EP 1075424 B1 EP1075424 B1 EP 1075424B1
Authority
EP
European Patent Office
Prior art keywords
panel
flex
container according
container
molded
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.)
Expired - Lifetime
Application number
EP00917678A
Other languages
German (de)
French (fr)
Other versions
EP1075424A1 (en
Inventor
Roger M. Prevot
Robert Andrew Stewart
Tracy Marie Momany
Marvin Lee Smith
Jay Arnold
Nicole Green
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.)
Graham Packaging Co LP
Original Assignee
Graham Packaging Co LP
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 Graham Packaging Co LP filed Critical Graham Packaging Co LP
Priority to EP03024841A priority Critical patent/EP1384672A1/en
Priority to EP05027719A priority patent/EP1671886A1/en
Publication of EP1075424A1 publication Critical patent/EP1075424A1/en
Application granted granted Critical
Publication of EP1075424B1 publication Critical patent/EP1075424B1/en
Anticipated expiration legal-status Critical
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D1/00Containers having bodies formed in one piece, e.g. by casting metallic material, by moulding plastics, by blowing vitreous material, by throwing ceramic material, by moulding pulped fibrous material, by deep-drawing operations performed on sheet material
    • B65D1/02Bottles or similar containers with necks or like restricted apertures, designed for pouring contents
    • B65D1/0223Bottles or similar containers with necks or like restricted apertures, designed for pouring contents characterised by shape
    • B65D1/0261Bottom construction
    • B65D1/0276Bottom construction having a continuous contact surface, e.g. Champagne-type bottom
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D1/00Containers having bodies formed in one piece, e.g. by casting metallic material, by moulding plastics, by blowing vitreous material, by throwing ceramic material, by moulding pulped fibrous material, by deep-drawing operations performed on sheet material
    • B65D1/02Bottles or similar containers with necks or like restricted apertures, designed for pouring contents
    • B65D1/0223Bottles or similar containers with necks or like restricted apertures, designed for pouring contents characterised by shape

Definitions

  • the present invention relates to wide mouth blow molded plastic containers, and more particularly to such containers having opposed chordal vacuum flex panels which are particularly suited for hot-filling and/or retorting viscous products.
  • a number of hot-fillable blow molded containers are disclosed having panels that flex due to the hot-filling process.
  • U.S. Patents to: Brown 5,141,120; Brown 5,141,121; Krishnakumar 5,472, 105; Prevot 5,392,937; and Prevot D 344,457 disclose hot-fillable bottles having panels providing the dual function of affording grippability and vacuum-accommodating flexure.
  • U.S. Patent 5,887,739 issued to Graham Packaging Company, L.P., and owned in common with the present application, discloses a blow-molded wide-mouth container having a plurality of vacuum-flex panels spaced apart about its periphery.
  • Patent D420,593 also owned by Graham, discloses a pinch-grip wide mouth container. While the patented Graham wide mouth containers afford the advantage of ready scoopability of contents, the flex panels and dome structural intrusions into the container may impede thorough scoopability for certain types of viscous food products. Unlike containers having conventional peripheral flex panels that afford wrap-around labeling, flex panel grip containers of the type disclosed in the above patents have limited labelable areas due to the presence of the unlabelable grip areas between the front and rear label panels.
  • U.S. Patent 4,642,968 discloses a cylindrical wide-mouth container having a bottom structure which bulges outwardly to accommodate internal forces developed during retorting. See also U.S. Patents 5,217,737 and 5,234,126.
  • U.S. Patent 5,908,128 discloses a narrow-neck bottle having a plurality of peripheral flex panels that accommodate internal forces due to pasteurization.
  • EP-A-0 469 777 discloses a container according to the preamble of claim 1, and US-A-5,472,105 describes a plastic container having arcuate asymmetric flex panels extending between front and rear label panels.
  • an object of the present invention is to provide novel hot fillable plastic containers which have vacuum absorption panels that flex during hot-filling, capping and cooling: which are resistant to unwanted distortion; and which have a minimum of internal structure that could impede thorough contents scooping.
  • Another object of the present invention is to provide wide-mouth, blow-molded jars having flat flex panels that present minimal interference with out-scooping of contents by a consumer and that maximize labelable areas.
  • a further object of the invention is to provide a vide-mouth, blow-molded jar structure that can be used in either hot-fill processing or in retort processing.
  • Yet another object of the invention is to provide a wide-mouth, blow-molded retortable jar that can be produced by conventional extrusion blow-molding technology.
  • the present invention provides a wide-mouth blow-molded container according to claim 1.
  • the present invention provides a blow molded, hot-fillable wide mouth jar J that has a body 10 with a pair of chordal vacuum flex panels 11 with flat outer surfaces situated as shown in Figs. 2 and 3.
  • the flex panels 11 are connected by an arcuate front label panel 13 and an arcuate rear label panel 15 of smaller arcuate extent than the front panel 13, so that the panels 11 are asymmetrically disposed, both converging toward the rear of the jar J depicted to the right in Fig. 1.
  • the flex panels 11 are planar, as manufactured, and flex in response to hot-filling, capping and cooling. Each flex panel is identical in construction to the other.
  • the flex panel 11 is vertically elongate and is defined by two opposing upper and lower U-shaped reinforcing rib structures, 19 and 20, respectively.
  • Each rib structure is identical to the other and is characterized by a pair of parallel vertical legs 19a which are connected together by an integral peripheral brow web 19b.
  • the brow web 19b has a wall portion 19' that is angulated with respect to the planar vacuum panel 11 and has a region of maximum intrusion extending centrally into the flex panel and end regions of minimum intrusion adjacent the intersections of the brow web 19b and the legs 19a.
  • the region of maximum intrusion of the brow web wall portion 19' intersects the flex panel 11 at an included angle ⁇ of about 120°.
  • each brow web 19b has a portion, opposite the flex panel, which extends peripherally of the jar inwardly adjacent conventional peripheral label bumpers.
  • the ends of the rib structure legs 19a terminate in spaced endwise relation adjacent the transverse median M of the flex panel.
  • the brow web and legs are continuously inwardly concave throughout their entire extents.
  • the U-shaped reinforcing rib structures 19 cooperate to prevent ovalization of the jar without interfering with the desired movement of the planar flex panels 11 in the course of providing the vacuum absorption function during hot-fill processing.
  • the legs 19a provide anti-slip bights at the front and rear vertical edges of the flex panels.
  • the upper portion of the jar J has a conventional dome shape 23 which terminates in a wide mouth threaded finish 25.
  • the base 27 of the jar preferably has radially extending ribs (not shown) such as customarily used by Graham in connection with other of its hot-fill containers made of PET.
  • FIG. 6 Another embodiment of the invention which provides enhanced labelability is illustrated in Figs. 6 through 9.
  • This embodiment is similar in most respects to the previously-described embodiment but has certain structural differences in the flex panel region that provide additional advantages. More specifically, as best seen in the transverse cross section of Fig. 9, the front label panel 113 merges smoothly and continuously into the front vertical margin of each flex panel 111 along an arcuate transition wall 130 having a relatively large radius of curvature, R c , on the order of at least about 0.5 inch The smooth radiused transition enables a continuous label L, a portion of which is shown in phantom in Fig.6, to be wrapped onto the front label panel 113 and into frontal vertical margins of each flex panel 111.
  • a single, inwardly-concave, vertical rib 150 is provided along the intersection of the rear panel 115 and the rear of each flex panel 111.
  • the rib 150 provides vertical strength, and a bight that facilitates anti-slip gripping.
  • This embodiment provides the advantages of the previously-discussed embodiment, along with a larger label mounting area because the front label can be wrapped into the flex panel grip area, thereby enabling the front label to occupy one-half or more of the periphery of the jar body.
  • the rear panel may be labelled, or logos may be molded into the rectangular framed panel regions 115a, 115b, 115c.
  • the planar flex panels of each disclosed embodiment taper chordally from front to rear at a dihedral angle ⁇ (Fig. 9) of from about 16° to about 32°, a 24° angle being shown in the illustrated embodiment.
  • the chordal extent of each flex panel preferably corresponds to almost 30 percent of the transverse medial jar body circumference (ie. at least about one-half of the diameter of the container) and should be within a range of about 20 to about 40 percent.
  • the height of each flex panel is about 50 percent greater than the chordal extent.
  • the total labelable area of the jar illustrated in Fig. 6 is about 20 in 2 . This is about 50 percent of the total peripheral surface of the body portion of the jar.
  • Each flex panel is preferably smooth, although each may include a mottled surface, or may be embossed with decorations or logos.
  • the containers illustrated in Figs. 1-9 have a volumetric capacity of 24.5 fluid ounces, and are illustrated at full scale.
  • each container is manufactured of PET plastic from an injection-molded preform by a process such as disclosed in Graham's copending application S.N. 09/126,170, filed on July 30. 1998, and entitled Wide Mouth Blow Molded Plastic Container, Method of Making Same, and Preform Used Therein, the disclosure of which is incorporated by reference herein.
  • a wide-mouth container manufactured by this process is disclosed in Graham's U.S. Patent 5,887,739, referenced at page 1, the disclosure of which is incorporated by reference herein.
  • the disclosed container structures can be made by stretch blow-molding from an injection molded preform of any of several well known plastic materials, such as PET, PEN, and the like. Such materials have proven particularly suitable for applications involving hot-fill processing wherein contents are charged at temperatures of greater than 190°F before the container is capped and allowed to cool to ambient temperatures.
  • a container structure disclosed in Figs. 10-14 which is similar to the container of Figs. 1-5 but with certain modifications, has been found capable of withstanding the rigors of retort processing at temperatures up to 260°F under super-baric pressure conditions.
  • Such structure is capable of being manufactured of single or multiple layer materials by economical extrusion blow-molding processes, as well known in the art. For example, when an extruded parison having a six (6) layer wall structure of either virgin PP or HDPE, compatible regrind, adhesive, EVOH, adhesive, and virgin PP or HOPE is blow-molded into a 32 fluid ounce container structure (illustrated at approximately twice full scale in Fig.
  • the resulting extrusion blow-molded container is product-opaque: provides acceptable shelf-life for a contained viscous product, such as sauce; is economical to manufacture; and is retortable.
  • retortable as used herein, is intended to mean that a filled and capped container is capable of being heated to temperatures up to 260°F at pressures up to 45 psi and cooled to ambient temperatures without undergoing distortion that would be commercially-unacceptable to the ultimate consumer.
  • a base 227 of the illustrated cross-sectional configuration has an annular peripheral standing ring 227a that provides upright support for the container when placed on a flat horizontal surface S.
  • the base 227 has an outer upwardly and radially-inwardly extending annular wall portion 227b that tapers at an angle of 10° from the horizontal surface S.
  • the wall portion 227b merges with an inner upwardly and radially-inwardly extending wall portion 227c that forms an angle of 45° with respect to a horizontal plane parallel to the horizontal plane of the support surface S.
  • the outer and inner wall portions 227b and 227c are connected by an inwardly concave wall portion having a radius of curvature R 1 .
  • the inner wall portion 227c merges with an inwardly convex wall portion 227d having a radius of curvature R 2 which is larger than radius R 1 .
  • the convex wall portion 227d slants downwardly toward a central circular wall portion 227e coaxial with the container central axis.
  • the central circular wall portion 227e is located at an elevation H 1 lower than the elevation H 2 of the apogee 227f of the inner tapered wall portion 227c .
  • the base 227 has a transverse mold-parting seam 227e which is characteristic of an extrusion blow-molded parison
  • a jar of the configuration illustrated in Figs. 10-12 which is like the jar of Figs. 1-6, but which has continuous peripheral outwardly concave reinforcing rings 230 and 231, respectively located above and below the upper and lower brows 219 and 220, respectively.
  • the jar was extrusion blow-molded of polypropylene multi-layer wall composition noted, supra, and had the base configuration of Fig. 12 and dimensions set forth in Column A in Table I.
  • the jar was hot-filled with water at a temperatures of 150°F; was provided with a 10 percent headspace; and was capped. To the capped jar, 1.7 fluid ounces of hot water at 150°F was added under pressure to simulate internal pressures experienced during retorting.
  • the extrusion blow-molded retortable jar shown in Fig. 10 may have a flex panel frame structure such as shown in Fig 13 .
  • the upper and lower U-shaped reinforcing ribs 319 and 320 have shorter legs 319a, 320a separated from aligned vertically elongate ribs 319' .
  • a jar may be provided with a single vertically-elongate arcuate rear panel 415 , as shown in Fig. 14.
  • the rear panel 415 is particularly suited for extrusion blow-molded retortable jars.
  • the rear arcuate panel 415 can be molded with decorative artwork and logos.

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  • Engineering & Computer Science (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Containers Having Bodies Formed In One Piece (AREA)
  • Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)
  • Food Preservation Except Freezing, Refrigeration, And Drying (AREA)
  • Medical Preparation Storing Or Oral Administration Devices (AREA)

Abstract

Hot-fillable, blow molded, wide-mouth plastic containers having a pair of flex panels (11, 111, 211) for accommodating thermally induced volumetric and pressure variations while affording easy contents scoopability, and desirable labeling features. The containers are capable of being blow-molded from injection molded preforms or from extruded parisons. The containers may be hot-filled and retorted. A desirable base (27, 127, 227) for a retortable container is also disclosed.

Description

Field of the Invention
The present invention relates to wide mouth blow molded plastic containers, and more particularly to such containers having opposed chordal vacuum flex panels which are particularly suited for hot-filling and/or retorting viscous products.
Background of the Invention
A number of hot-fillable blow molded containers are disclosed having panels that flex due to the hot-filling process. For example, U.S. Patents to: Brown 5,141,120; Brown 5,141,121; Krishnakumar 5,472, 105; Prevot 5,392,937; and Prevot D 344,457 disclose hot-fillable bottles having panels providing the dual function of affording grippability and vacuum-accommodating flexure. U.S. Patent 5,887,739, issued to Graham Packaging Company, L.P., and owned in common with the present application, discloses a blow-molded wide-mouth container having a plurality of vacuum-flex panels spaced apart about its periphery. U.S. Patent D420,593, also owned by Graham, discloses a pinch-grip wide mouth container. While the patented Graham wide mouth containers afford the advantage of ready scoopability of contents, the flex panels and dome structural intrusions into the container may impede thorough scoopability for certain types of viscous food products. Unlike containers having conventional peripheral flex panels that afford wrap-around labeling, flex panel grip containers of the type disclosed in the above patents have limited labelable areas due to the presence of the unlabelable grip areas between the front and rear label panels.
In retort processing of containers filled with viscous products, such as sauces, the container is subjected to greater internal pressures and volumetric changes than occurs with hot-fill processing. This is due to the higher processing temperatures, and, therefore, the greater expansion of the contained products and associated vapor. In an attempt to provide a satisfactory retortable blow-molded plastic container, U.S. Patent 4,642,968 discloses a cylindrical wide-mouth container having a bottom structure which bulges outwardly to accommodate internal forces developed during retorting. See also U.S. Patents 5,217,737 and 5,234,126. U.S. Patent 5,908,128 discloses a narrow-neck bottle having a plurality of peripheral flex panels that accommodate internal forces due to pasteurization. The '128 patent does not provide ready contents scoopability because it has a narrow neck and is encumbered with a plurality of internal flex panel structural elements that interfere with contents scooping. EP-A-0 469 777 discloses a container according to the preamble of claim 1, and US-A-5,472,105 describes a plastic container having arcuate asymmetric flex panels extending between front and rear label panels.
There is, therefore, a need for a wide mouth container having a simple flex-panel that presents a minimum of structure that can interfere with scooping of contents yet which is effective in absorbing vacuum without undesirable structural problems. There is also a need for such a container that provides a maximum amount of surface area for tabeling. Furthermore, there is a need for a retortable wide mouth container that can be produced by economical extrusion blow-molding technology.
Objects of the lnvention
With the forgoing in mind. an object of the present invention is to provide novel hot fillable plastic containers which have vacuum absorption panels that flex during hot-filling, capping and cooling: which are resistant to unwanted distortion; and which have a minimum of internal structure that could impede thorough contents scooping.
Another object of the present invention is to provide wide-mouth, blow-molded jars having flat flex panels that present minimal interference with out-scooping of contents by a consumer and that maximize labelable areas.
A further object of the invention is to provide a vide-mouth, blow-molded jar structure that can be used in either hot-fill processing or in retort processing.
Yet another object of the invention is to provide a wide-mouth, blow-molded retortable jar that can be produced by conventional extrusion blow-molding technology.
The present invention provides a wide-mouth blow-molded container according to claim 1.
Brief Description of the Drawings
The foregoing and other objects, features and advantages of the invention should become apparent from the following detailed description when taken in conjunction with the accompanying drawings, in which:
  • Fig. 1 is a side elevational view of one embodiment of a container according to the present invention, the opposite side elevational view being a mirror image thereof:
  • Fig. 2 is a front elevational view of the container shown in Fig. 1:
  • Fig. 3 is a rear elevational view of the container shown in Fig. 1;
  • Fig. 4 is a top plan view of the container shown in Fig. 1;
  • Fig. 5 is a bottom plan view of the container shown in Fig. 1;
  • Fig. 6 is side elevational view of another embodiment of the present invention;
  • Fig. 7 is a front elevational view of the container illustrated in Fig. 6;
  • Fig. 8 is a rear elevational view of the container illustrated in Fig. 6;
  • Fig. 9 is a transverse cross-sectional view taken on line 9-9 of Fig. 6;
  • Fig. 10 is a side elevational view of an extrusion blow-molded retortable container: embodying the present invention
  • Fig. 11 is a bottom plan view of the container illustrated in Fig. 10;
  • Fig. 12 is an enlarged transverse cross-sectional view taken on line 12-12 of Fig. 11;
  • Fig. 13 is a side elevational view of a modified embodiment of the container of Fig. 10; and
  • Fig. 14 is a rear elevational view of a further modified embodiment of the container of Fig. 10.
    • Description of the Preferred Embodiments
    As illustrated in Fig. 1, the present invention provides a blow molded, hot-fillable wide mouth jar J that has a body 10 with a pair of chordal vacuum flex panels 11 with flat outer surfaces situated as shown in Figs. 2 and 3. The flex panels 11 are connected by an arcuate front label panel 13 and an arcuate rear label panel 15 of smaller arcuate extent than the front panel 13, so that the panels 11 are asymmetrically disposed, both converging toward the rear of the jar J depicted to the right in Fig. 1. The flex panels 11 are planar, as manufactured, and flex in response to hot-filling, capping and cooling. Each flex panel is identical in construction to the other.
    As illustrated in Fig. 1, the flex panel 11 is vertically elongate and is defined by two opposing upper and lower U-shaped reinforcing rib structures, 19 and 20, respectively. Each rib structure is identical to the other and is characterized by a pair of parallel vertical legs 19a which are connected together by an integral peripheral brow web 19b.
    As illustrated in Fig. 3, the brow web 19b has a wall portion 19' that is angulated with respect to the planar vacuum panel 11 and has a region of maximum intrusion extending centrally into the flex panel and end regions of minimum intrusion adjacent the intersections of the brow web 19b and the legs 19a. The region of maximum intrusion of the brow web wall portion 19' intersects the flex panel 11 at an included angle α of about 120°.
    As depicted in Fig. 1, each brow web 19b has a portion, opposite the flex panel, which extends peripherally of the jar inwardly adjacent conventional peripheral label bumpers. The ends of the rib structure legs 19a terminate in spaced endwise relation adjacent the transverse median M of the flex panel. The brow web and legs are continuously inwardly concave throughout their entire extents. The U-shaped reinforcing rib structures 19 cooperate to prevent ovalization of the jar without interfering with the desired movement of the planar flex panels 11 in the course of providing the vacuum absorption function during hot-fill processing. The legs 19a provide anti-slip bights at the front and rear vertical edges of the flex panels.
    The upper portion of the jar J has a conventional dome shape 23 which terminates in a wide mouth threaded finish 25. When made of PET and used in hot-fill applications, the base 27 of the jar preferably has radially extending ribs (not shown) such as customarily used by Graham in connection with other of its hot-fill containers made of PET. An advantage of this jar structure is that in addition to providing the requisite vacuum absorption, it minimizes the amount of internal structure that can impede thorough out-scooping of contents.
    Another embodiment of the invention which provides enhanced labelability is illustrated in Figs. 6 through 9. This embodiment is similar in most respects to the previously-described embodiment but has certain structural differences in the flex panel region that provide additional advantages. More specifically, as best seen in the transverse cross section of Fig. 9, the front label panel 113 merges smoothly and continuously into the front vertical margin of each flex panel 111 along an arcuate transition wall 130 having a relatively large radius of curvature, Rc, on the order of at least about 0.5 inch The smooth radiused transition enables a continuous label L, a portion of which is shown in phantom in Fig.6, to be wrapped onto the front label panel 113 and into frontal vertical margins of each flex panel 111. Desirably, a single, inwardly-concave, vertical rib 150 is provided along the intersection of the rear panel 115 and the rear of each flex panel 111. The rib 150 provides vertical strength, and a bight that facilitates anti-slip gripping.
    This embodiment provides the advantages of the previously-discussed embodiment, along with a larger label mounting area because the front label can be wrapped into the flex panel grip area, thereby enabling the front label to occupy one-half or more of the periphery of the jar body. If desired, the rear panel may be labelled, or logos may be molded into the rectangular framed panel regions 115a, 115b, 115c.
    Preferably, the planar flex panels of each disclosed embodiment taper chordally from front to rear at a dihedral angle β (Fig. 9) of from about 16° to about 32°, a 24° angle being shown in the illustrated embodiment. The chordal extent of each flex panel preferably corresponds to almost 30 percent of the transverse medial jar body circumference (ie. at least about one-half of the diameter of the container) and should be within a range of about 20 to about 40 percent. The height of each flex panel is about 50 percent greater than the chordal extent. The total labelable area of the jar illustrated in Fig. 6 is about 20 in2. This is about 50 percent of the total peripheral surface of the body portion of the jar. Each flex panel is preferably smooth, although each may include a mottled surface, or may be embossed with decorations or logos. The containers illustrated in Figs. 1-9 have a volumetric capacity of 24.5 fluid ounces, and are illustrated at full scale.
    Preferably, each container is manufactured of PET plastic from an injection-molded preform by a process such as disclosed in Graham's copending application S.N. 09/126,170, filed on July 30. 1998, and entitled Wide Mouth Blow Molded Plastic Container, Method of Making Same, and Preform Used Therein, the disclosure of which is incorporated by reference herein. A wide-mouth container manufactured by this process is disclosed in Graham's U.S. Patent 5,887,739, referenced at page 1, the disclosure of which is incorporated by reference herein.
    The disclosed container structures can be made by stretch blow-molding from an injection molded preform of any of several well known plastic materials, such as PET, PEN, and the like. Such materials have proven particularly suitable for applications involving hot-fill processing wherein contents are charged at temperatures of greater than 190°F before the container is capped and allowed to cool to ambient temperatures.
    A container structure disclosed in Figs. 10-14, which is similar to the container of Figs. 1-5 but with certain modifications, has been found capable of withstanding the rigors of retort processing at temperatures up to 260°F under super-baric pressure conditions. Such structure is capable of being manufactured of single or multiple layer materials by economical extrusion blow-molding processes, as well known in the art. For example, when an extruded parison having a six (6) layer wall structure of either virgin PP or HDPE, compatible regrind, adhesive, EVOH, adhesive, and virgin PP or HOPE is blow-molded into a 32 fluid ounce container structure (illustrated at approximately twice full scale in Fig. 12) the resulting extrusion blow-molded container is product-opaque: provides acceptable shelf-life for a contained viscous product, such as sauce; is economical to manufacture; and is retortable. The term retortable, as used herein, is intended to mean that a filled and capped container is capable of being heated to temperatures up to 260°F at pressures up to 45 psi and cooled to ambient temperatures without undergoing distortion that would be commercially-unacceptable to the ultimate consumer.
    According to the present invention, retortability is facilitated by an improved base construction which cooperates with the pair of flex panels to prevent the base from undergoing excessive outward deflection, ie. deflection below the container standing ring To this end, as best seen in Fig. 10, a base 227 of the illustrated cross-sectional configuration has an annular peripheral standing ring 227a that provides upright support for the container when placed on a flat horizontal surface S. The base 227 has an outer upwardly and radially-inwardly extending annular wall portion 227b that tapers at an angle of 10° from the horizontal surface S. The wall portion 227b merges with an inner upwardly and radially-inwardly extending wall portion 227c that forms an angle of 45° with respect to a horizontal plane parallel to the horizontal plane of the support surface S. The outer and inner wall portions 227b and 227c are connected by an inwardly concave wall portion having a radius of curvature R1. The inner wall portion 227c merges with an inwardly convex wall portion 227d having a radius of curvature R2 which is larger than radius R1. The convex wall portion 227d slants downwardly toward a central circular wall portion 227e coaxial with the container central axis. The central circular wall portion 227e is located at an elevation H1 lower than the elevation H2 of the apogee 227f of the inner tapered wall portion 227c. As seen in Fig. 11, the base 227 has a transverse mold-parting seam 227e which is characteristic of an extrusion blow-molded parison
    Simulated retort tests were conducted on a jar of the configuration illustrated in Figs. 10-12, which is like the jar of Figs. 1-6, but which has continuous peripheral outwardly concave reinforcing rings 230 and 231, respectively located above and below the upper and lower brows 219 and 220, respectively. The jar was extrusion blow-molded of polypropylene multi-layer wall composition noted, supra, and had the base configuration of Fig. 12 and dimensions set forth in Column A in Table I. The jar was hot-filled with water at a temperatures of 150°F; was provided with a 10 percent headspace; and was capped. To the capped jar, 1.7 fluid ounces of hot water at 150°F was added under pressure to simulate internal pressures experienced during retorting.
    During the test, it was observed that the flex panels flexed outwardly while the base 227 acted like a diaphragm and deflected downwardly with its central wall portion 227f remaining above the level of the standing ring surface S. It is estimated that the flex panels accommodated about 50 percent of the combined flex panel and base accomodated volumetric expansion of the jar under simulated retort conditions. The combined volumetric expansion was about 80% of the total jar volumetric expansion. The coaction of the base 227 with the pair of flex panels 211 that flexed in preference to the base, and the other disclosed structural features, enabled the jar to be retortable.
    By way of example, and not by way of limitation, two 32 fluid ounce capacity wide-mouth jars (A and B), both of the sidewall configuration illustrated in Fig. 13, having an overall height of 7 inches, a flex panel length of 3.5 inches and width of 2.0 inches, a maximum outside body diameter of 3.7 inches, and base configurations with the dimensional relations (in inches) in Table I were tested satisfactorily under the simulated retort conditions noted above. Sample B had an outer annular wall angle of 17° instead of 10° as in Sample A.
    Parameter A B
    D1 3.25 3.25
    D2 2.38 2.38
    D3 1.73 1.73
    D4 0.39 0.39
    H1 0.13 .195
    H2 0.25 .315
    R1 5.94 7,75
    R2 6.35 6.35
    While these dimensional relations functioned well for a 32 ounce jar, when scaling-up for larger capacity retortable jars, D3 should be made as large as possible, and H, should be larger.
    If desired, the extrusion blow-molded retortable jar shown in Fig. 10 may have a flex panel frame structure such as shown in Fig 13. With such frame structure, the upper and lower U-shaped reinforcing ribs 319 and 320 have shorter legs 319a, 320a separated from aligned vertically elongate ribs 319'.
    Alternatively, instead of the series of vertically-spaced separately framed panels illustrated at the rear of the retortable jar embodiment illustrated in Figs. 6-8, a jar may be provided with a single vertically-elongate arcuate rear panel 415, as shown in Fig. 14. The rear panel 415 is particularly suited for extrusion blow-molded retortable jars. The rear arcuate panel 415 can be molded with decorative artwork and logos.
    In view of the foregoing it should be apparent that the variouse embodiments of the present invention overcome the limitations of known prior art containers and achieve the objectives set forth.
    While several preferred embodiments have been described in detail, various modifications, alterations and changes may be made without departing from the spirit and scope of the invention as defined in the appended claims.

    Claims (31)

    1. A wide-mouth blow-molded container having a dome (23) with a finish (25, 125), a base (27, 227), and a body (10) connecting the dome (23) to the base (27, 227), said body (10) having an arcuate front label panel (13), an arcuate rear panel (15), and a pair of flex panels (11, 211) in the body (10) for accommodating internal changes in pressure and volume in the container resulting from heating and cooling of its contents, said flex panels (11, 211) being disposed opposite one another in said container body (10), and each flex panel (11, 211) being planar, as manufactured, whereby the flex panels (11, 211) enhance contents scoopability, characterized in that each flex panel (11, 211) is defined by an opposed pair of upper and lower U-shaped rib structures (19, 20, 219, 220), each U-shaped rib structure (19, 20, 219, 220) having a pair of vertical legs (19a) connected together by an integral peripheral brow web (19b), said brow web (19b) being angulated with respect to the planar flex panel (11, 211) and having a region of maximum intrusion extending centrally into the flex panel (11, 211) and end regions of minimum intrusion adjacent the intersection of the brow web (19b) and legs (19a).
    2. A wide mouth blow-molded container according to Claim 1 wherein said rear label panel (15, 115) is of lesser peripheral extent than said front label panel (13, 113), and wherein said flex panels (11, 111, 211) extend chordally between. said front (13, 113) and rear (15, 115) panels.
    3. A wide-mouth blow-molded container according to Claim 2 wherein said flex panels (11, 111, 211) are asymmetrically disposed and subtend an included dihedral angle in a range of 16° to about 32°.
    4. A wide-mouth blow-molded container according to Claim 3 wherein said dihedral angle is about 24°.
    5. A wide-mouth blow-molded container according to Claim 1 wherein said pair of flex panels (11, 111, 211) comprise between about 20 and about 40 percent of the circumferential extent of the body portion of the container.
    6. A wide-mouth blow-molded container according to Claim 1 wherein said front label panel (113) merges with said flex panels (111) along a radius of curvature sufficiently large as to enable a label to be wrapped continuously across said front label panel (113) and onto said flex panels (111).
    7. A wide-mouth blow-molded container according to Claim 1 including a vertically elongate rib (150) extending between each flex panel (111) and said rear panel (115).
    8. A wide-mouth blow-molded container according to Claim 1 wherein each brow web (19b) has a portion, opposite the flex panel (11, 211), which extends peripherally of the jar, and said rib structure legs (19a) have ends terminating in spaced relation on opposite sides of a transverse median of the flex panel (11, 211), whereby said rib structure (19, 20, 219, 220) facilitates desired flexure of the flex panel (11, 211), while providing a desirable level of hoop stiffening of the container body.
    9. A wide-mouth blow-molded container according to Claim 1 wherein said base (227) has a diametrically-extending seam (227e) resulting from having been extrusion blow-molded, said seam (227e) extending medially between said flex panels (211).
    10. A wide-mouth blow-molded container according to Claim 1 wherein said base (227) has a standing ring (227a) and an upwardly inclined annular portion (227b) inwardly adjacent to said standing ring (227a), an inwardly concave central portion (227e) located above the level of said standing ring (227a), and an inwardly convex portion (227d) connecting said annular and central portions.
    11. A blow-molded wide-mouth container according to Claim 1, said flex panels (111) extending chordally between said front label panel (113) and said rear panel (115), each flex panel (111) merging with its adjacent front label panel (113) by means of an upright arcuate wall portion (130) having a sufficiently large radius of curvature as to enable a label applied to the front panel (113) to wrap continuously onto at least a frontal marginal portion of said flex panel (111).
    12. A container according to Claim 11 wherein said arcuate wall portion (130) is smooth and said radius of curvature is at least about 12.7 mm (0.5 inch).
    13. A container according to Claim 11 wherein each flex panel (111) extends chordally at least about one-half the diameter of the container body.
    14. A container according to Claim 11 including a vertical rib (150) extending between said rear panel (115) and a rear end portion of each flex panel (111).
    15. A container according to Claim 11 wherein said flex panels (111) extend chordally and subtend a dihedral angle in a range of about 16° to about 32°.
    16. A container according to Claim 15 wherein said dihedral angle is about 24°.
    17. A container according to Claim 11 wherein said flex panels (111) and front label panel (113) together provide a label area of at least about one-half of the periphery of the container body.
    18. A container according to Claim 17 including a continuous label applied onto said front label panel (113) and onto each flex panel (111).
    19. A blow-molded wide mouth container according to Claim 1, wherein said flex panels (11, 111, 211) are asymmetrically located in said container body (10), each flex panel (11, 111, 211) extending chordally to minimize internal structural interference with contents scoopability.
    20. A container according to Claim 19 wherein said body has at least one rib (150) extending vertically between each flex panel (111) and at least one adjacent arcuate panel portion for at least a substantial portion of the overall height of the flex panel (111).
    21. A container according to Claim 19 wherein said container body has a surface with a relatively large radius of curvature connecting said front label panel (113) to each flex panel (111) for enabling a front label to be wrapped onto at least front margins of said flex panels (111).
    22. A container according to Claim 19 wherein said flex panels (11, 111, 211) subtend a dihedral angle in a range of about 16° to about 32°.
    23. A container according to Claim 19 wherein said flex panels (11, 111, 211) extend chordally for a distance corresponding substantially to at least one-half the diameter of the container body.
    24. A container according to Claim 19 wherein said base (227) has a standing ring (227a) and an upwardly inclined annular portion (227b) inwardly adjacent to said standing ring (227a), an inwardly concave central portion (227e) located above the level of said standing ring (227a), and an inwardly convex portion (227d) connecting said annular and central portions.
    25. A container according to claim 24 having the dimensional relations set forth in Table 1.
    26. A container according to Claim 1, wherein said container is an extrusion blow-molded, wide-mouth retortable jar, said base having a standing ring (227a) and an upwardly inclined annular portion (227b) inwardly of said standing ring (227a), an inwardly concave central portion (227e) located above the level of said standing ring (227a), and an inwardly convex portion (227d) connecting said annular and central portions.
    27. A container according to Claim 26, wherein said annular portion (227b) includes an outer portion inclined upwardly at a first acute angle and an inner portion inclined upwardly at a second acute angle greater than said first acute angle.
    28. A container according to Claim 27 wherein said first acute angle is in a range of about 10° to about 17°, and said second acute angle is on the order of 45°, both relative to parallel planes passing through said standing ring (227a).
    29. A container according to Claim 27 wherein said outer portion is connected to said inner portion by a first radius of curvature and said inner portion is connected to said inwardly convex portion by a second radius of curvature of about the same order of magnitude as said first radius of curvature.
    30. A container according to Claim 27 wherein said inwardly convex and central portions combined compose about one-half the area of the base (227) inside said standing ring (227a).
    31. A container according to Claim 27 wherein said central portion (227e) is located above the level of said standing ring (227a) so as to remain above a plane passing therethrough under conventional retort processing conditions.
    EP00917678A 1999-03-01 2000-02-29 Hot-fillable and retortable flat panelled container Expired - Lifetime EP1075424B1 (en)

    Priority Applications (2)

    Application Number Priority Date Filing Date Title
    EP03024841A EP1384672A1 (en) 1999-03-01 2000-02-29 Hot fillable and retortable flat panelled jar
    EP05027719A EP1671886A1 (en) 1999-03-01 2000-02-29 Hot-fillable and retortable flat panelled jar

    Applications Claiming Priority (5)

    Application Number Priority Date Filing Date Title
    US12231799P 1999-03-01 1999-03-01
    US122317P 1999-03-01
    US14217799P 1999-07-01 1999-07-01
    US142177P 1999-07-01
    PCT/US2000/005118 WO2000051895A1 (en) 1999-03-01 2000-02-29 Hot-fillable and retortable flat paneled jar

    Related Child Applications (1)

    Application Number Title Priority Date Filing Date
    EP03024841A Division EP1384672A1 (en) 1999-03-01 2000-02-29 Hot fillable and retortable flat panelled jar

    Publications (2)

    Publication Number Publication Date
    EP1075424A1 EP1075424A1 (en) 2001-02-14
    EP1075424B1 true EP1075424B1 (en) 2004-08-25

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    Family Applications (1)

    Application Number Title Priority Date Filing Date
    EP00917678A Expired - Lifetime EP1075424B1 (en) 1999-03-01 2000-02-29 Hot-fillable and retortable flat panelled container

    Country Status (10)

    Country Link
    EP (1) EP1075424B1 (en)
    AT (1) ATE274452T1 (en)
    AU (1) AU3861400A (en)
    BR (1) BR0005187A (en)
    CA (1) CA2328620C (en)
    DE (1) DE60013211T2 (en)
    ES (1) ES2226808T3 (en)
    PL (1) PL343727A1 (en)
    TR (1) TR200003196T1 (en)
    WO (1) WO2000051895A1 (en)

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    US8381940B2 (en) 2002-09-30 2013-02-26 Co2 Pac Limited Pressure reinforced plastic container having a moveable pressure panel and related method of processing a plastic container
    US7543713B2 (en) 2001-04-19 2009-06-09 Graham Packaging Company L.P. Multi-functional base for a plastic, wide-mouth, blow-molded container
    US7900425B2 (en) 2005-10-14 2011-03-08 Graham Packaging Company, L.P. Method for handling a hot-filled container having a moveable portion to reduce a portion of a vacuum created therein
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    NZ521694A (en) 2002-09-30 2005-05-27 Co2 Pac Ltd Container structure for removal of vacuum pressure
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    Also Published As

    Publication number Publication date
    BR0005187A (en) 2001-01-09
    AU3861400A (en) 2000-09-21
    DE60013211D1 (en) 2004-09-30
    DE60013211T2 (en) 2005-09-22
    TR200003196T1 (en) 2001-03-21
    ATE274452T1 (en) 2004-09-15
    PL343727A1 (en) 2001-09-10
    ES2226808T3 (en) 2005-04-01
    CA2328620A1 (en) 2000-09-08
    EP1075424A1 (en) 2001-02-14
    CA2328620C (en) 2009-02-10
    WO2000051895A1 (en) 2000-09-08

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