EP3423367B1 - Resealable container lid assembly - Google Patents
Resealable container lid assembly Download PDFInfo
- Publication number
- EP3423367B1 EP3423367B1 EP17760501.1A EP17760501A EP3423367B1 EP 3423367 B1 EP3423367 B1 EP 3423367B1 EP 17760501 A EP17760501 A EP 17760501A EP 3423367 B1 EP3423367 B1 EP 3423367B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- cap
- container lid
- container
- resealable container
- resealable
- 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.)
- Active
Links
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- B65D47/20—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge
- B65D47/2018—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure
- B65D47/2031—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge comprising a valve or like element which is opened or closed by deformation of the container or closure the element being formed by a slit, narrow opening or constrictable spout, the size of the outlet passage being able to be varied by increasing or decreasing the pressure
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- 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
- B65D47/00—Closures with filling and discharging, or with discharging, devices
- B65D47/04—Closures with discharging devices other than pumps
- B65D47/20—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge
- B65D47/24—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with poppet valves or lift valves, i.e. valves opening or closing a passageway by a relative motion substantially perpendicular to the plane of the seat
- B65D47/241—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with poppet valves or lift valves, i.e. valves opening or closing a passageway by a relative motion substantially perpendicular to the plane of the seat the valve being opened or closed by actuating a cap-like element
- B65D47/243—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with poppet valves or lift valves, i.e. valves opening or closing a passageway by a relative motion substantially perpendicular to the plane of the seat the valve being opened or closed by actuating a cap-like element moving linearly, i.e. without rotational motion
-
- 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
- B65D51/00—Closures not otherwise provided for
- B65D51/002—Closures to be pierced by an extracting-device for the contents and fixed on the container by separate retaining means
Definitions
- the present invention relates to a resealable container lid assembly.
- the resealable lid is assembled to a container such as an aluminum beverage can.
- the cap is assembled to the lid and rotated by the consumer to open and reseal the can.
- the rotational movement of the cap is converted into linear motion by one or more cam mechanisms to effect an opening action, fracturing a score line and bending a tear panel inward into the can.
- the cap can be removed for consumption of content stored therein and replaced to reseal the opened lid.
- beverage and can industries have long sought to create a can that is both economical to produce and convenient for use by consumers.
- beverage cans were provided with a "pull tab" which the consumer would grab by a ring, and pull until the tab was removed from the can.
- the consumer failed to properly dispose of the tab thereby creating not only litter, but also a safety issue, in that the tabs could be swallowed by small children.
- the edges of the pull tab were sharp enough that they could, if mishandled, cut the fingers or hands of the consumer or anyone else who handled a loose pull tab.
- the industry moved in the direction of a tab that stayed on the can after opening, thereby preventing both litter and any sharp edges from coming into contact with consumers.
- the present state of the art is to have a "stay on” tab that is attached to the can lid by a rivet formed in the can lid next to the opening.
- the opening is formed by a score line, or frangible "kiss cut” which breaks when the tab is pulled up by the consumer.
- the score line when broken, produces a hinged flap that stays connected to the can lid, but inside the can.
- Beverage cans with stay on tabs suffer from at least the following deficiencies.
- they are not resealable, so that once the consumer opens the beverage; the contents are subject to loss of carbonation, and the influx of foreign material due to the contents being open to the surrounding environment.
- the lid needs to be made of a different material, typically an aluminum alloy that is stronger than the aluminum alloy used to make the sides and bottom of the can.
- the tab itself is typically made of a different alloy than the sides and lid, reflecting the need for a still stronger, typically stiffer material.
- recycling of the aluminum beverage can is problematic because the different materials need to be separated.
- the use of three different materials also tends to add complexity, and expense, to the finished container.
- US 5 692 633 A teaches a resealable container lid assembly comprising:
- US 5 692 633 A lacks an arrangement where the container lid comprises a container lid rotational and axial guide feature integral with the vertical sidewall, that the container lid sealing cap comprises a sealing cap rotational and axial guide feature integral with the cap cylindrical exterior sidewall, and that wherein the container lid sealing cap is inserted into an interior volume defined by the container lid vertical sidewall, wherein the sealing element engages with the container lid seal engaging surface when the sealing cap rotational and axial guide feature is rotationally engaged with the container lid rotational and axial guide feature.
- a container has a sidewall and integrally formed bottom.
- the container is preferably a beverage container, but could be adapted to any suitable container.
- a top lid includes a socket integrally formed therein; the socket including a substantially cylindrical sidewall and a bottom wall.
- a score line formed in the bottom wall defines a tear panel which forms an opening into the can when the score line is fractured and the tear panel is bent inward or removed.
- a cap is fitted in the socket and has a sidewall which is formed with cam surfaces. The cam surfaces, formed as grooves or slots, cooperate with bosses or detents formed in the cylindrical sidewall of the socket.
- cam surfaces and associated bosses translate the rotational motion of the cap into linear motion, wherein the linear motion fractures the score line and opens the tear panel.
- a protrusion formed on the lower surface of the cap impinges on the periphery of the score line, fracturing the score line and subsequently pushing the tear panel into the can.
- the cap can be re-fitted into the socket, so that the cam surfaces engage the detents, and are rotated to achieve a sealing position, whereby the contents of the can are protected from the ambient atmosphere. This will result in the prevention of spillage, the loss of carbonation, and the prevention of foreign objects from entering the can.
- the user can opt to discard the cap and/or container once the entire contents of the can are consumed.
- the container is a beverage container, commonly referred to as a "can,” but the same principals described above could be used for other types of containers, including bottles made of various materials, including plastic, paper, metal (such as aluminum), cartons, cups, glasses, etc.
- the container can be an aluminum can with a body manufactured of an aluminum alloy material, and a container lid being manufactured of the same aluminum alloy material as the container.
- the cap can be made of a plastic material of sufficient hardness that the cam surfaces do not deform during opening and closing operations, a metal, or any other suitable material.
- a resealable beverage container lid assembly comprises
- the container body is substantially cylindrical and the bottom wall is integrally formed with the sidewall.
- the bottom wall, the sidewall and the lid are all made of a same material.
- the bottom wall, the sidewall and the lid are all fabricated from one planar sheet of material.
- the material is selected from a group of materials, the group of materials comprising:
- At least one of the bottom wall, the sidewall and the lid is made of an aluminum alloy.
- the bottom wall, the sidewall and the lid are all made of the aluminum alloy.
- the lid includes a socket extending downwardly into an interior space of the container body, the socket having a sidewall and a bottom wall.
- the cap including a sidewall and a bottom wall, and wherein the cap is adapted to fit into the socket.
- the socket of the container lid is formed within the planar base panel of the container lid.
- the socket of the container lid is located proximate a circumferential edge of the container lid.
- the entire peripheral edge of the socket of the container lid is off-centered respective to a seaming panel or a circumferential edge of the container lid.
- the entire peripheral edge of the socket of the container lid is concentrically located respective to a seaming panel or a circumferential edge of the container lid.
- a peripheral edge wall of the socket of the container lid is located between a seaming panel and a peripheral countersink.
- peripheral edge wall of the socket of the container lid is arranged being substantially vertically oriented.
- peripheral edge wall of the socket of the container lid is arranged being substantially vertically oriented, the peripheral edge wall further comprising at least one earn feature.
- the socket additionally includes an assembly element for assembling and retaining a secondary component to the container lid.
- the assembly element formed within the socket is located within the sidewall of the socket.
- the assembly element formed within the sidewall of the socket is provided in a form of a cam track.
- the assembly element formed within the sidewall of the socket is provided in a form of a cam engaging projection.
- the container lid sidewall and the socket sidewall are distinct from one another.
- the container lid sidewall and the socket sidewall are the same.
- the container lid further comprising a reinforcement section formed within a bottom wall of the socket of the container lid.
- the container lid further comprising a reinforcement structure located about a peripheral edge of the container lid planar base bottom.
- the container lid further comprising a reinforcement structure that is formed as an embossed feature extending upward into a void within the socket cavity.
- the container lid further comprising a reinforcement structure that is formed as a debossed feature extending downward away from the void within the socket cavity.
- the container lid further comprises a reinforcement structure that is formed having both the embossed feature extending upward into the void within the socket cavity and the debossed feature extending downward away from the void within the socket cavity.
- the container lid further comprises a reinforcement structure that is formed on the planar base bottom, outward of the score line.
- the container lid further comprises a reinforcement structure that is formed on the container lid planar base bottom, outward of the score line.
- the reinforcement structure includes features that are employed for translation of a radial motion into at least one of an axial motion and an axial force.
- the reinforcement structure includes features that are employed to induce a torsional force upon the tear panel to rotate or bend the tear panel away from the container lid planar base bottom.
- the reinforcement structure is adapted to distribute the fracturing force applied by the cap onto the tear panel to propagate the bifurcation fracturing of the score line.
- the reinforcement structure includes guide features acting as a pathway for an incisor during rotation of the cap respective to the container lid.
- the reinforcement structure includes guide features acting as an incisor pathway channel providing clearance for the incisor during rotation of the cap respective to the container lid.
- the incisor pathway channel is formed as an initial step in the formation of the container lid.
- the incisor pathway channel is formed following the formation of a majority of the features of the container lid.
- the incisor pathway channel includes at least one indexing formation.
- the indexing formation can be formed during the process used for forming a length of the incisor pathway channel or formed separately.
- the indexing formation is integral with at least one end of the incisor pathway channel; preferably having one formed at each end of the incisor pathway channel.
- the at least one indexing formation can be employed to provide registration between the container lid and tooling during the container lid fabrication process.
- the indexing formation is formed prior to the formation of the incisor pathway channel.
- the indexing formation is formed subsequent to the formation of the incisor pathway channel.
- the reinforcement structure can be employed for nesting of at least one feature provided on the cap.
- the container lid can include a reinforcement structure formed about the socket sidewall.
- the container lid can include a reinforcement structure formed about an upper edge of the socket sidewall.
- the container lid can include a reinforcement structure formed about the seaming panel of the container lid.
- the container lid can include a reinforcement structure formed about a lower portion of the seaming panel of the container lid.
- the container lid can include a reinforcement structure formed about the seaming panel of the container lid, wherein the reinforcement feature is employed to retain a cylindrical shape of the container lid sidewall.
- the container lid can include a reinforcement structure formed about the lower portion of the seaming panel of the container lid, wherein the reinforcement structure is employed as a support for a respective seating feature of a seaming chuck.
- the container lid can include a reinforcement structure formed about the lower portion of the seaming panel of the container lid, wherein the reinforcement structure is employed to provide planar support for the respective seating feature of the seaming chuck.
- the container lid can include a reinforcement structure formed about a bottom edge of the socket sidewall.
- the container lid can include a reinforcement structure formed about a bottom edge of the socket sidewall, wherein the reinforcement feature is a countersink.
- the container lid seaming panel is assembled to the container body seaming flange.
- the container lid seaming panel is assembled to the container body seaming flange using a roll forming process.
- the container lid seaming panel is assembled to the container body seaming flange using a roll forming process in conjunction with a compression process.
- the roll forming process can be completed using any suitable roll forming process.
- at least one roller is rotated about a stationary assembly.
- the assembly is rotated about at least one stationary roller.
- the assembly is rotated about at least one rotating roller.
- the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid.
- the axial compression force application process can be completed using any suitable roll forming process.
- the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid using a frustum shaped mating surface between a seaming chuck and the container lid seaming panel.
- the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid by applying a compression force from the respective seating feature provided on the seaming chuck and a seaming chuck shoulder formed about an interior surface of the container lid sidewall.
- the respective seating feature can alternatively be referred to as a planar driving surface.
- the seaming chuck can further comprise a cavity formed extending inward from a seaming chuck bottom surface, wherein the seaming chuck bottom surface cavity provides clearance for features of the container lid assembly.
- the seaming chuck can further comprise a cavity formed extending inward from a seaming chuck bottom surface, wherein the seaming chuck bottom surface cavity provides clearance for features of the container lid assembly, which includes the container lid and the container cap.
- the container lid seaming panel can be assembled to the container body seaming flange using a bonding process.
- the container lid is adapted for deformation during subjection to and resulting from a retort process.
- a tamper indicator actuator ensures and maintains sufficient separation between the resealable container cap substantially horizontally oriented traversing wall (more specifically, the incisor) and the cap receiving socket bottom wall to avoid premature fracturing of the score line during subjection to the retort process.
- the vertical sidewall of the container lid deforms inward, pinching the cam tracks against the respective cam followers of the resealable container cap. This configuration retains the cap within cap receiving socket of the container lid while subjected to the retort process.
- the lid further comprising a socket adapted to receive the cap and an earn feature, wherein the earn feature includes elements formed on opposing cylindrical surfaces of the socket and cap.
- each earn surface is formed on an outer cylindrical surface of the cap, and projections are formed on the inner cylindrical surface of the socket, wherein each earn surface is adapted to engage the projections whereby rotational movement of the cap imparts translational movement to the cap.
- the first drive system for driving the cap into operable engagement with the tear panel, thereby pushing the tear panel into the can to form an opening in the lid;
- the second drive means includes a second linear motion drive mechanism, capable of converting rotational motion of the cap into a separation force applied upon the tear panel.
- the first linear motion drive mechanism includes first and second cam structures, formed respectively on the cap cylindrical sidewall and socket cylindrical sidewall.
- the second linear motion drive mechanism includes third and fourth cam structures, formed respectively on the cap bottom wall and the socket bottom wall.
- the first cam structure includes a groove formed in the cap cylindrical sidewall
- the second cam structure includes at least one projection formed on the socket cylindrical sidewall
- the third cam structure includes at least one cap ramp and the fourth cam structure includes at least one socket ramp in sliding engagement with the at least one cap ramp.
- the at least one cap ramp includes three ramps arranged peripherally around the cap bottom wall, in sliding engagement with the at least one socket ramp.
- cap second linear drive mechanism element is a first series of ramps
- mating socket second linear drive mechanism element is a second series of ramps, wherein each ramp of the first series of ramps and each associated ramp of the second series of ramps are in sliding engagement with one another.
- At least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap.
- At least a portion of the ramp is configured to be a debossed feature, extending upward from the bottom surface of the cap.
- At least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap.
- At least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap and a second portion of the ramp is configured to be a debossed feature, extending upward from the bottom surface of the cap.
- the opening process includes a mechanism enabling the cap to distally separate from the container lid upper surface, thus separating the sealing element from the upper surface of the cap receiving socket bottom wall, eliminating any friction between the sealing element and the associated mating surface.
- separation of the sealing element and the associated mating surface enables depressurization of the pressurized contents within container to eliminate missiling.
- the score line is adapted to define a pathway for initiating and propagating a fracture defining a tear panel from the container lid planar based bottom or socket bottom wall.
- the score section is formed upon the container lid planar base bottom.
- the score section is formed upon an exterior surface of the container lid planar base bottom.
- the score section is formed upon an interior surface of the container lid planar base bottom.
- the score section is formed upon at least one of an exterior surface of the container lid planar base bottom and an interior surface of the container lid planar base bottom.
- the score section is formed upon a socket bottom wall, wherein the socket is formed within the container lid planar base bottom.
- the score section is concentric with respect to the container lid socket sidewall.
- the score section is located off-center with respect to the container lid socket sidewall.
- a portion of the score section is formed within an incisor pathway channel.
- a portion of the score section is formed on a sidewall of the incisor pathway channel.
- a portion of the score section is formed on a radial portion of the sidewall of the incisor pathway channel.
- a portion of the score section is formed on an end portion of the sidewall of the incisor pathway channel.
- the score line is a first score line and further comprising a central piercing formation located proximate the center of the lower end of the cap, a second score line formed in the middle of the tear panel and juxtaposed the central piercing element, wherein a downward motion of the cap causes the central piercing element to pierce the center of the tear panel to release internal pressure and thereby facilitate breaking of the first score line by the pointed projection.
- the score section is formed having a pair of score grooves; the pair of score grooves is arranged substantially parallel to one another.
- the score section is formed having a pair of score grooves; the pair of score grooves is joined to one another at one end.
- the score section is formed having a pair of score grooves; the pair of score grooves is joined to one another at one end by a loop formation.
- the score line is shaped initiating at a looped segment and having a pair of line segments extending from each end of the looped segment, the pair of line segments extending in a like direction generally following a peripheral edge of the socket bottom wall.
- the score line is shaped initiating at a looped segment and having a pair of line segments extending from each end of the looped segment, the pair of line segments extending in a like direction generally following a peripheral edge of the socket bottom wall, wherein the pointed projection is in alignment with a center of the looped segment of the score line.
- the score line is includes at least two intersecting lines, and wherein the sharp projection is juxtaposed at the intersection between the two lines.
- the score line is formed in an "S" shape.
- the score line is formed in an "S" shape, defining a pair of tear panels.
- the score line is formed in an "S" shape, defining a pair of tear panels, wherein each end of the score line defines a respective hinge for the respective tear panel.
- the score line is adapted to define a hinge section.
- the container lid further comprising a hinge section defined by ends of the score line, wherein the hinge section extends between the tear panel and the annular surface maintaining attachment of the tear panel to the planar member when the score line is fractured.
- the score line is formed using a single score forming step.
- the score line is formed using multiple score forming steps.
- the score line is formed using multiple score forming steps, wherein an intersection between ends of the first score segment formed by the first score forming step and the second score segment formed by a subsequent score forming step is facilitated by including an enlarged score area located at the intersection between the first score segment and the second score segment.
- the enlarged score area adjoining two (2) separately formed score line segments is employed to perform at least one function of initiating and propagating the fracture of the score line.
- the multiple score line process employs registration features formed within the container lid to maintain registration accuracy between the first score forming step and each subsequent score forming step.
- the score line can be reinforced by applying a sealant material on at least one side of the material having the score line.
- the reinforced score line can be formed partially extending through the score receiving substrate or extend completely through the score receiving substrate.
- the enlarged score area adjoining two (2) separately formed score line segments includes a thinned material fracture section located upon a same surface as the score line, and a broader compression formed concave surface located on an opposite side of the score receiving substrate, wherein the combination ensures a desired movement of material during the forming process.
- the process is adapted to form the scoring fracture initiation or propagation section by the traversing displacement of the material.
- the enlarged score area adjoining two (2) separately formed score line segments can be of any suitable shape, including circular, oval, oblong, square, rectangular, diamond, hexagonal, octagonal, or any other suitable shape.
- At least one end of the score line includes an outward arched segment, wherein the outward arched segment is adapted to direct any additional fracturing away from the hinge formation.
- both ends of the score line include outward arched segments, wherein the outward arched segments are adapted to direct any additional fracturing away from the hinge formation.
- the score line can be arranged providing a counterclockwise driven opening, having score line fracture initiating location on a left side of the tear panel and a hinge located on a right side.
- the score line can be arranged providing a clockwise driven opening, having score line fracture initiating location on a right side of the tear panel and a hinge located on a left side.
- the cap includes an upper end and a lower end, and the tear panel is shaped defining a flap that opens when the pointed projection is driven downwardly by the earn feature to impinge upon the score line.
- the cap is fabricated from a single sheet of planar material.
- the cap is fabricated using at least one metal forming process.
- the at least one metal forming process can include a stamping process, a sheering process, a drawing process, a wall ironing process, a metal pinching process, a rolling process, and the like.
- the cap is fabricated using a machining process.
- the cap is fabricated using a molding process.
- the cap is fabricated using a casting process.
- a cap planar traversing wall, a sidewall, and a grip feature are all made of a same material.
- cap planar traversing wall, the sidewall, and the grip feature are all fabricated from one planar sheet of material.
- the material is selected from a group of materials, the group of materials comprising:
- At least one of the cap planar traversing wall, the sidewall, and the grip feature is made of an aluminum alloy.
- cap planar traversing wall, the sidewall, and the grip feature are all made of the aluminum alloy.
- the cap includes at least one grip.
- the cap further comprising a grip element formed in the upper end of the cap.
- the grip element is formed having a debossed shape, wherein the debossed shape extends downward from the cap planar traversing wall.
- the grip element is formed having an embossed shape, wherein the embossed shape extends upward from the cap planar traversing wall.
- the grip element is formed having a pinched shape.
- the grip element is formed having a pinched dome shaped upward extending projection.
- the grip element is formed having a cylindrical shape.
- the grip element is formed having a cylindrical shaped cavity, wherein the cylindrical shaped grip element cavity is a deboss extending downward from the cap planar traversing wall.
- the grip element is formed having a cylindrical shaped formation, wherein the cylindrical shaped grip element formation is an emboss extending upward from the cap planar traversing wall.
- the cylindrical shaped grip element formation includes a peripheral edge grip enhancing formation.
- the grip element is formed having a bar or linear shape.
- the cap includes at least one feature for receiving an implement.
- the at least one feature for receiving the implement includes at least one bar shaped element.
- the at least one feature for receiving the implement includes a pair of bar shaped elements spatially arranged to receive the implement.
- the cap includes at least one feature for receiving an implement, wherein the implement is a coin.
- the cap can include at least one cap reinforcement structure.
- the cap reinforcement structure can be formed as a gripping element.
- the cap reinforcement structure can be formed as a sidewall.
- the cap reinforcement structure can be formed as a countersink.
- the cap reinforcement structure can be formed as an incisor deboss panel.
- the cap reinforcement structure can be formed as at least one ramp.
- the cap reinforcement structure can be formed as a tamper indicator.
- the cap includes a piercing element or incisor extending downward from a bottom surface of the cap.
- the incisor is formed using a molding process.
- the incisor is formed using a molding process that is accomplished during the formation of the cap.
- the incisor is formed using a metal forming process.
- the incisor is formed as a debossed feature.
- the incisor includes a leading edge, a trailing edge and a bottom surface.
- leading edge of the incisor is adapted to initiate a fracture of the score line.
- the incisor is formed using a metal forming process that is accomplished during the formation of the cap.
- the incisor is integral with a secondary feature, wherein the secondary feature extends downward from the cap bottom surface.
- the incisor is integral and located within with a secondary feature, wherein the secondary feature extends downward from the cap bottom surface.
- the secondary feature being a platform.
- the secondary feature being a debossed section.
- the secondary feature being a grip formation.
- the incisor extends downward from a bottom surface of the secondary feature.
- the secondary feature is a ramp or other load generating and/or distributing formation.
- the incisor is a ramp or other load generating formation.
- the incisor is located concentrically respective to the peripheral edge of the cap.
- the incisor is located off-center respective to the peripheral edge of the cap.
- the incisor is located in rotational registration with at least a portion of the score line.
- the incisor is located in rotational registration with a thinned or fracture initiation feature of the score line.
- the incisor is located in a position on the cap, wherein the incisor intersects a portion of the score line during a rotational motion of the cap respective to the container lid.
- the incisor is located in registration with the score line, wherein the incisor applies a fracturing force to the score line as the cap is axially positioned towards the container lid.
- the cap can include a plurality of incisors.
- the cap can include a plurality of incisors, wherein each of the plurality of incisors is located enabling ambiguity of initial assembly of the cap onto the container lid.
- cap includes tamper evidence feature.
- the tamper evidence feature of the cap is provided as a frangible skirt circumscribing a peripheral edge of the cap.
- the cap has an upper end having a peripheral edge, and the cap includes a skirt formed along the peripheral edge, the skirt including an opened indicating feature for visually indicating when beverage container has been opened.
- the opened indicating feature includes score lines formed radially outwardly at spaced intervals along the skirt, wherein the score lines are broken to allow movement of the skirt when the cap moves downwardly.
- the tamper indicator can be formed as an embossed dome shaped upward projection.
- the embossed dome shaped upward projection operates by allowing a flexure in a direction opposite to the domed shape when unsupported. The flexibility enables the tamper indicator to report, similar to a clicking device.
- the embossed dome shaped upward projection functions employing a mechanically supported configuration.
- the embossed dome shaped upward projection can further include a downward projecting probe or operating element to provide support to the embossed dome shaped upward projection.
- the downward projecting probe or operating element is adapted to contact the opposing surface of the container lid bottom wall.
- the downward projecting probe contacts the opposing surface of the container lid bottom wall.
- the contained pressure stiffens the container lid bottom wall.
- the downward projecting probe contacting the stiffened container lid bottom wall retains the tamper indicator in an upward shape.
- the pressure is equalized within the interior volume of the container, thus no longer providing stiffness to the container lid bottom wall.
- the downward projecting probe contacting the unsupported container lid bottom wall no longer retains the tamper indicator in an upward shape, enabling the tamper indicator to flex.
- the flexibility enables the tamper indicator to report, similar to a clicking device.
- the embossed dome shaped upward projection functions employing a pneumatically supported configuration.
- the pneumatically supported configuration employs a vacuum formed within the container.
- the safety indicator is normally drawn towards the interior of the container.
- the pneumatically supported configuration employs a pressure formed within the container.
- the safety indicator is normally forced away from the interior of the container.
- the embossed dome shaped upward projection is concentrically located respective to a peripheral edge of the cap.
- the embossed dome shaped upward projection is located off centered respective to a peripheral edge of the cap.
- the tamper indicator would be formed using a fabrication process compatible with the method(s) used for manufacturing the cap.
- the downward projecting probe or operating element of the tamper indicator can alternatively be an upward projecting probe extending upward from the cap receiving socket bottom wall of the container lid.
- a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal provided on a bottom surface of the cap and a respective sealing surface located on the upper surface of the container lid bottom wall.
- the sealing surface located on the upper surface of the container lid bottom wall extends between the vertical socket wall and the fractured score line.
- the sealing feature provided on the cap is concentrically located respective to a peripheral edge of the cap.
- the sealing feature provided on the cap is located off centered respective to a peripheral edge of the cap.
- the sealing feature would be located on the cap to encompass the score line about the tear panel when the cap is rotated into a sealing position in the container lid.
- the sealing feature provided on the cap is teardrop shaped.
- the sealing feature provided on the cap is located off centered respective to a peripheral edge of the cap and teardrop shaped.
- a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal element carried by an annular surface circumscribing a peripheral edge of the planar traversing wall of the cap and a mating surface formed on the container lid.
- the mating section is formed on an annular surface circumscribing a peripheral edge of the socket bottom wall of the container lid.
- a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal provided on a frustum shaped surface circumscribing an outer peripheral edge of the cap and a mating section formed on the container lid.
- the mating section is formed having a frustum shape and is located interposed between the container lid seaming panel and the vertical socket sidewall.
- the cap and lid form a seal between the seating arrangement of the socket and the lower surface of the cap.
- the cap and lid form a seal between an upper surface of the substantially planar member and a contacting surface of a flange extending radially outward from a peripheral edge about the cap.
- the cap fits substantially within the socket, and the cam feature comprises earn surfaces formed in one of the cylindrical sidewalls of the socket and the cap, and at least one projection formed in the other of the cylindrical sidewalls of the socket and the cap.
- the pliant sealing element can be carried by one of the cap or the container lid.
- the pliant sealing element can be located between the cap and the container lid.
- the pliant sealing element can be an independent component of the container lid assembly, wherein the pliant sealing element would be located between the cap and the container lid.
- the container lid includes a detent feature for securing the cap in a first position associated with pre-opening, and a second position associated with post-opening.
- the cam track is configured to include a locking detent segment.
- the locking detent segment is designed to retain the cap from rotating in a reverse direction following an initial assembly of the cap to the cap receiving socket within the container lid.
- the cap is retained in a container pre-opened position by locating each socket sidewall cam engaging projections within each respective cam track, with each socket sidewall cam engaging projections being located following the respective embossed cam surface lower detent. Further rotation in an opening direction is hindered by an upward sloping cam groove surface segment.
- the cam track includes features to retain the cap within the cap receiving cavity, while enabling an opening sequence, a dispensing configuration, as a sealing configuration. This can be accomplished by including a downward directed segment at an opposite end of the cam track.
- the cam track can include at least one of an upper detent and a downward directed segment at an upper distal end thereof, wherein the at least one of an upper detent and a downward directed segment is adapted to curtail any further rotational motion of the cap, thus retaining the cap within the cap receiving cavity of the container lid.
- the cap is retained in a container pre-opened position by locating the incisor against an end wall of an incisor pathway channel to limit rotation in an opening direction and locating each cam follower past a locking detent segment of each associated cam track to limit rotation in a reverse direction.
- the detent feature is associated with the cam feature.
- the pre-opening position is associated with functions of storage and transport, and the post-opening position is associated with resealing.
- the detent feature includes at least a portion of the earn feature.
- the cam feature includes earn elements formed on the cap which engage earn followers formed in the cylindrical sidewall of the lid, and the detent feature include detents formed in the cam elements which cooperate with the cam followers to hold the cap in the pre-opening and post opening positions.
- the sealing element is secondarily employed as a retention element to retain a rotational relationship between the cap and the container lid.
- At least one of the container lid and the cap include indicia presenting operating instructions for operating the container lid and cap assembly.
- the operating indicia includes instructions for at least one of opening, dispensing, and closing the cap upon the container lid.
- a resealable container lid assembly in accordance with the present invention as defined by claim 1 includes:
- sealing cap rotational and axial guide feature is one of:
- the container lid seal engaging surface is a frustum shaped surface formed within the container lid vertical sidewall
- the cap sealing element is arranged having a frustum shaped surface adapted to engage with the frustum shaped surface of the container lid seal engaging surface.
- the resealable container lid assembly is further configured to include:
- the container lid further comprising an incisor pathway channel formed within the cap receiving socket bottom wall, the incisor pathway having a semi-circular embossed shape with one end located at least one of proximate a fracture initiation region of the score line and overlapping the fracture initiation region of the score line.
- the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform, the container lid further comprising at least one raised feature adapted to engage with the incisor platform to propagate fracturing of the score line during rotation of the container lid sealing cap within the cap receiving socket.
- the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform,
- the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform, the container lid further comprising at least one raised feature, adapted to engage with the incisor platform to propagate fracturing of the score line during rotation of the container lid sealing cap within the cap receiving socket.
- the container lid sealing cap further comprises a tamper indicator, wherein the tamper indicator is adapted to inform a consumer when a resealable container assembly comprising the container lid has been breached.
- cap sealing element is one of:
- the incisor includes a leading edge, a trailing edge, and a bottom edge.
- leading edge of the incisor is adapted to initiate a fracture of the score line during rotation of the sealing cap within the cap receiving socket.
- the cap may be included with the container or offered as a separate implement, being sold separately from the beverage container, and re-useable after washing.
- the cap can include a child's sip cup top configuration, enabling the beverage container be converted into a child's sip cup.
- the cap can include a baby bottle "nipple" formation to convert the beverage container into a baby bottle.
- the cap can include a baby bottle "nipple" formation to convert the beverage container into a baby bottle.
- the contents of the container could be infant formula.
- the cap can include an axially actuated resealable sports bottle dispensing mechanism to convert the beverage container into a sports bottle.
- the cap can include a rotationally actuated resealable bottle dispensing mechanism.
- the rotationally actuated resealable bottle dispensing mechanism can be provided in a form factor of a spout.
- the cap can include a straw gasket for retaining a straw within a sealed cap.
- the cap can be a two piece configuration (resembling a mason jar styled two piece cap) enabling a straw aperture to remain in a rotational relationship with the dispensing aperture during assembly of the cap to the container lid.
- the two piece configuration includes an earn feature disposed therebetween, wherein the earn feature translates a rotation of an outer two piece cap configuration ring into an axial motion of the inner, non-rotating center sealing two piece cap component. The axial motion engages and maintains a seal between the cap and the container lid.
- the cap includes the straw gasket for retaining a straw within a sealed cap includes a pliant straw retention and sealing element.
- the pliant straw retention and sealing element is preferably designed having an elongated, tubular shape.
- the cap includes a projection that is adapted to extend into the dispensing aperture of the breached container lid.
- the cap includes a concentric projection that is adapted to extend into the dispensing aperture of the breached container lid.
- the cap includes an off-centered projection that is adapted to extend into the dispensing aperture of the breached container lid.
- the off-centered projection can be employed to maintain a rotational position of the two piece cap center component respective to the container lid during assembly of the two piece cap to the container lid.
- a container 100 exemplified as a beverage container in FIGS. 1 through 12 , includes a container cylindrical sidewall 202, a container closed container closed bottom wall 204, integrally formed with the container cylindrical sidewall 102 and a resealable container lid 110 connected to the container cylindrical sidewall 102 at the end opposite the container closed container closed bottom wall 204.
- the container 100 is a beverage container commonly referred to as a can, wherein the container closed container closed bottom wall 204 and the container cylindrical sidewall 102 are formed from a single piece of aluminum material, using otherwise known processes.
- the aluminum material is a lightweight aluminum alloy commonly used in the beverage can industry.
- the resealable container lid 110 is preferably made of the same lightweight aluminum alloy material, and is joined at the upper end of the sidewall through likewise known processes.
- the resealable container lid 110 includes a cap receiving socket 130 which extends downwardly into the container 100 from a resealable container lid upper surface 114.
- the cap receiving socket 130 is formed near a peripheral edge or lip of the resealable container lid 110 as is customary in the art, to allow drinking from the container 100.
- a resealable container cap 160 fits into the cap receiving socket 130 and engages same in a manner described in more detail below.
- the container cylindrical sidewall 202 of the container 100 is preferably tapered at both the upper and lower ends to provide greater structural integrity, particularly for use with pressurized contents, such as when used for carbonated beverages.
- the resealable container lid 110 has an outer perimeter that is connected to the upper open end of the container cylindrical sidewall 102 of the beverage container, using known processes, to form an enclosure which contains a beverage. Beverages contained therein are not limited, but include carbonated or non-carbonated beverages, and could also include foodstuffs, and non-edible products.
- the cap receiving socket 130 is integrally formed in the resealable container lid upper surface 114 of the resealable container lid 110 and includes a cap receiving socket cylindrical sidewall 132, which extends downwardly into the container 100, and a cap receiving socket bottom wall 134.
- a cap receiving socket bottom panel circular score line 136 is formed in the cap receiving socket bottom wall 134 in order to create a cap receiving socket bottom panel tear panel 138 (see FIGS. 13B , 13C and 13D ) which is pushed into the can when the can is opened.
- the cap receiving socket bottom panel tear panel 138 remains connected to the cap receiving socket bottom wall 134 due to the fact that the cap receiving socket bottom panel circular score line 136 does not make a complete circle or loop; a tear panel hinge 139 is created where the cap receiving socket bottom wall 134 is not scored (see FIG. 5 ).
- the resealable container cap 160 is sized to fit substantially within the cap receiving socket 130, and includes a flat annular cap bottom sealing surface 167 which is disposed between the cam shaped cap bottom surface 166 and the cap's resealable container cap cylindrical sidewall 162.
- the cap receiving socket bottom wall 134 of the cap receiving socket 130 may include a cap receiving socket bottom panel flat annular surface 140 which is disposed between the cap receiving socket cylindrical sidewall 132 and the cap receiving socket bottom panel circular score line 136.
- the resealable container lid 110 has a shallow, resealable container lid upper surface reinforcement formation 118 which serves two purposes.
- the resealable container lid upper surface reinforcement formation 118 acts as a stiffening structure to provide greater strength to the resealable container lid 110. This is particularly advantageous if the resealable container lid 110 is to be made of the same aluminum alloy as the container cylindrical sidewall 102 and container closed container closed bottom wall 204 of the container 100.
- the resealable container lid upper surface reinforcement formation 118 adds a familiar look to consumers who are accustomed to the prior art beverage containers employing a pull tab that is operated first in an opening direction, and then secondly, in a seated direction, where the hinged pull tab is positioned after opening.
- the cap receiving socket cylindrical sidewall 132 of the cap receiving socket 130 has a plurality of equally spaced socket sidewall cam engaging projections 150, disposed substantially on the same plane and being integrally formed in the sidewall 22.
- FIG. 5 shows one protrusion as an indentation or recess, since FIG. 5 shows the outer cylindrical sidewall 132 of the resealable container lid 110, whereas the other figures show the inner cap receiving socket cylindrical sidewall 132 of the resealable container lid 110.
- the socket sidewall cam engaging projections 150 cooperate with the resealable container cap 160 in a manner described below in order to open and reseal the container 100.
- the resealable container cap 160 has a radially extending cap skirt 170 which acts as a tamper proof indicator. As seen in FIG. 1 , prior to opening the container 100, the radially extending cap skirt 170 seats flush with the resealable container lid planar upper surface outer segment 119 of the resealable container lid 110.
- the skirt is integrally formed with the resealable container cap 160, which is preferably made of plastic material.
- the radially extending cap skirt 170 includes a series of radially extending cap skirt frangible score lines 172, extending radially outwardly, which are operable to break during the opening operation of the can.
- the breaking of the score lines 172 is effected by the skirt 170 being driven downwardly as the resealable container cap 160 is twisted or rotated and thereby advances downwardly into the cap receiving socket 130. Opening of the beverage container will thus be evident by the broken score lines 172 of the radially extending cap skirt 170, and preferably, by the sections of the radially extending cap skirt 170 that are formed by the broken score lines 172 extending at an angle upwardly, thus extending radially outwardly and radially upwardly.
- the resealable container cap 160 is preferably made of a molded plastic material, is sized to fit substantially within the cap receiving socket 130, and includes a cam shaped cap bottom surface 166 formed at the lower or inner end of a resealable container cap cylindrical sidewall 162.
- the cam shaped cap bottom surface 166 may include an integrally formed sharp or pointed offset projecting incisor 168 disposed offset to the center axis of the resealable container cap 160 and extending downwardly into the cap receiving socket 130 when the resealable container cap 160 is assembled in the cap receiving socket 130.
- the offset projecting incisor 168 When assembled, the offset projecting incisor 168 is disposed immediately above the cap receiving socket bottom panel circular score line 136, so that when the resealable container cap 160 moves downwardly during opening of the container 100 offset projecting incisor 168 punctures the can at the beginning of the cap receiving socket bottom panel circular score line 136, next to the tear panel hinge 139, then progressively propagates the rupture along the cap receiving socket bottom panel circular score line 136 to its terminus on the opposite end of the tear panel hinge 139.
- the cam shaped cap bottom surface 166 may also include a centered projecting incisor 169 disposed on the center axis of the resealable container cap 160 and extending downwardly into the cap receiving socket 130 when the resealable container cap 160 is assembled in the cap receiving socket 130.
- the projection 169 is disposed immediate above a cap receiving socket bottom panel centered "X" shaped score line 142, so that when the resealable container cap 160 moves downwardly during opening of the container, the projection punctures the can at the cap receiving socket bottom panel centered "X" shaped score line 142, thereby relieving internal pressure and assisting in the rupturing of the cap receiving socket bottom panel circular score line 136 by the offset projecting incisor 168.
- the opening operation of the container 100 is made possible by forming a cam structure between the cap receiving socket 130 and the resealable container cap 160.
- cam groove surfaces 180 are formed in the resealable container cap cylindrical sidewall 162 of the resealable container cap 160.
- the socket sidewall cam engaging projections 150 are fitted into and engage the cam groove surfaces 180 such that when the resealable container cap 160 is hand-twisted by the consumer, rotational motion of the resealable container cap 160 is converted into linear motion of the resealable container cap 160 thus driving the cap in a downward direction relative to the cap receiving socket 130.
- cap receiving socket bottom panel circular score line 136 is ruptured by the offset projecting incisor 168, then progressively propagates the rupture along the cap receiving socket bottom panel circular score line 136 to its terminus.
- An optional cap receiving socket bottom panel centered "X" shaped score line 142 may be ruptured by the centered projecting incisor 169 immediately before the cap receiving socket bottom panel circular score line 136 is ruptured by the offset projecting incisor 168, to thereby relieve internal pressure and assist in the rupture of the cap receiving socket bottom panel circular score line 136 by the offset projecting incisor 168.
- the resealable container cap 160 includes a resealable container cap grip element 174 for the consumer to grab when ready to open the beverage container, and also, as described below, for resealing the beverage container after opening.
- the cap can be rotated in one direction, preferably clockwise for opening, and then in the opposite direction, counterclockwise, to remove the cap during consumption of beverage, and then again back to the can-opening direction for resealing the beverage container if the contents are not entirely consumed. Symmetry of disposition of the three socket sidewall cam engaging projections 150 is shown in FIG.
- each projection engages a corresponding cam groove surface 180, more specifically, a first cam groove surface 181, a second cam groove surface 182, and a third cam groove surface 183.
- the resealable container cap cylindrical sidewall 162 of the resealable container cap 160 would be contoured, as by forming grooves, to form three cam groove surfaces 181, 182, 183.
- the cam surfaces or features 181, 182, 183 are shaped and sloped in a manner designed to cause the resealable container cap 160 to advance into an opening position without more than a quarter to half a turn, and as measured in radians, this would be no more than 1 to 2 radians.
- the number of projections and cam elements can be varied, although three provides a balance between cost and effectiveness.
- the cap resealable container cap cylindrical sidewall 162 includes three equally spaced cam groove surfaces 181, 182 and 183, as best shown in FIGS. 10 and 11 .
- the cam groove surfaces 181 and 182 and the resealable container cap grip element 174 extending across the page are best illustrated in FIG. 10 .
- the resealable container cap bottom surface 164 of the resealable container cap 160 includes the centered projecting incisor 169, acting as a piercing element, which punctures the cap receiving socket bottom panel centered "X" shaped score line 142, and it further includes an offset projecting incisor 168 which also acts as a piercing element.
- the projection 168 is designed and shaped to impinge on the cap receiving socket bottom wall 134 of the cap receiving socket 130 inside and juxtaposed the cap receiving socket bottom panel circular score line 136.
- the cam structure turns the rotational movement to translational movement, thus moving the cap inwardly.
- the offset projecting incisor 168 rotates until, preferably, it reaches the position shown in FIG.
- FIGS. 13A through 13D Cross sectional views of the cap moving between opening and resealing positions are shown in FIGS. 13A through 13D .
- the resealable container cap 160 is shown in cross section prior to opening the beverage container.
- the cap receiving socket bottom wall 134 of the cap receiving socket 130, the cap receiving socket cylindrical sidewall 132 of the cap receiving socket 130, and the resealable container lid upper surface 114 form the resealable container lid 110.
- the resealable container cap 160 is shown in the storage position, i.e., pre-opening of the can, in FIG. 13A , wherein the cap receiving socket bottom wall 134 is not punctured and the contents of the container 100 are air tight for potentially long term storage.
- the resealable container cap grip element 174 is shown in a first, unopened position. In this position the flat annular cap bottom sealing surface 167 of the resealable container cap 160 is spaced above the socket cap receiving socket bottom wall 134, but the offset projecting incisor 168 is close to or in slight contact with the cap receiving socket bottom panel circular score line 136. Similarly, if a second centered projecting incisor 169 is employed at the center of the lower end of the resealable container cap 160, it is also disposed in close proximity to the score line 44 if not slightly touching.
- the resealable container cap 160 is rotated clockwise approximately ninety degrees (90°), as shown in FIG. 13B .
- Engagement between the cam groove surfaces 180 and the socket sidewall cam engaging projections 150 translates the resealable container cap 160 downwardly by a distance sufficient to cause the offset projecting incisor 168 to rupture the cap receiving socket bottom panel circular score line 136 as the projection moves along the inner side of the score line.
- the rupture creates a cap receiving socket bottom panel tear panel 138 which is pushed by the offset projecting incisor 168 into the interior of the container 100 by rotating downwardly about a tear panel hinge 139, wherein the tear panel hinge 139 is formed spanning between opposite ends of the cap receiving socket bottom panel circular score line 136.
- the opposite ends of the score line 136 are positioned to locate and define a pivot axis of the tear panel hinge 139 for the cap receiving socket bottom panel tear panel 138.
- the consumer would then rotate the resealable container cap 160 counterclockwise, preferably by turning the resealable container cap grip element 174.
- the resealable container cap 160 is shown in FIG. 13C being separated from the container 100, and can be pocketed by the consumer, or placed in a location for easy access in case the consumer chooses not to consume the entire contents of the container 100.
- the radially extending cap skirt 170 may be angled upwardly as a result of the frangible score lines being broken, so that individual sections of the skirt are now biased in an upward direction.
- the cam groove surfaces 180 and the socket sidewall cam engaging projections 150 will eventually separate, allowing the resealable container cap 160 to be free of the container 100.
- the resealable container cap 160 is brought into contact with the cap receiving socket 130 by the consumer, by bringing the cam groove surfaces 180 into engagement with the socket sidewall cam engaging projections 150. Once this occurs, clockwise rotation will cause the resealable container cap 160 to translate downwardly until a sealing, seating arrangement is made between the cap receiving socket bottom panel flat annular surface 140 of the socket cap receiving socket bottom wall 134 and the flat annular cap bottom sealing surface 167 of the resealable container cap 160, thereby keeping the contents of the container 100 fresh and safe from foreign contaminants. The seal will retain carbonation when the contents are carbonated.
- the resealable container cap 160 can be removed again and again to gain access to the contents of the beverage container until all contents are consumed.
- beverages or other contents that can be housed in the container 100, but most commonly "canned" beverages include sodas, beer, juices, etc. It is also within the scope of the present invention that the contents of the containers could be foodstuff, and non-consumable liquids, gels, powders, and the like.
- the cam means disclosed herein can be used for caps that provide other functionality for the container 100.
- a variation of the resealable container cap 160 would be one that could include a passageway extending through the resealable container cap 160 with drinking implements formed at the upper, outer end, such as a child's sip cup, which would allow a child to drink from the container 100 without spilling.
- the resealable container cap 160 could be formed with an infant nipple for feeding formula, juice, water or other beverages suitable for infants.
- a resealable container cap 160 When using drinking implements such as sip cup and baby bottle nipples, a resealable container cap 160 would nonetheless have to be employed for opening the container, and then a second "cap” could be used for consuming the contents. In any event, the opening caps and drinking implements could be sold separately from the container 100, as long as the container 100 included the socket sidewall cam engaging projections 150 formed in the cap receiving socket cylindrical sidewall 132 of the cap receiving socket 130.
- resealable container cap 160 Although a wide range of plastic materials could be used to form the resealable container cap 160, other materials could be used, including ceramics and metals. However, for harder materials such as these, it may be necessary to position a gasket between the opposing annular surfaces 140, 167 of the socket 130 and the cap 160, respectively to ensure the best possible seal.
- frangible cap receiving socket bottom panel circular score line 136 in the bottom of the cap receiving socket 130 is circular, with a closed end and an open end.
- the inside score (shallower line) terminates in a curve arcing towards the socket's cylindrical sidewall to prevent loss of tear panel into the container.
- the outside score line (deeper line) terminates in circular form spaced from the inside score line. There is a hinged portion of the tear panel that keeps the panel in contact with the lid once ruptured, as described above.
- the offset projecting incisor 168 described as a piercing element, is intended to be a single point of contact that moves deeper, and radially along the inside of the cap receiving socket bottom panel circular score line 136 while the resealable container cap 160 is rotated.
- the offset projecting incisor 168 may also include additional areas to further drive the cap receiving socket bottom panel tear panel 138 deeper into the container. A single point will apply more force to breaking the cap receiving socket bottom panel circular score line 136 defining the cap receiving socket bottom panel tear panel 138 but additional areas acting in a secondary fashion could help in the opening process.
- each cam groove surface 181, 182, 183 includes a sloped cam groove surface segment 184, a cam groove surface lower detent 186 and a cam groove surface upper detent 188.
- the three socket sidewall cam engaging projections 150 are respectively positioned so that the detents prevent the resealable container cap 160 from becoming disconnected from the cap receiving socket 130, during transport or storage, and from backing off a sealing position, when the resealable container cap 160 is positioned in a resealing position.
- This can be illustrated with reference to FIG. 11 , where the socket sidewall cam engaging projection 150 is shown as a broken line circle.
- each socket sidewall cam engaging projection 150 (shown as a broken line circle) will be positioned next to the cam groove surface lower detent 186.
- the cam groove surface lower detent 186 prevents the resealable container cap 160 from turning to a position where the socket sidewall cam engaging projection 150 is disengaged from the first cam groove surface 181, as for example, if vibration or the like caused the projection 150 to pass out of the sloped cam groove surface segment 184.
- the projection passes over the cam groove surface upper detent 188 to become locked by interference fit between the cam groove surface upper detent 188 and the socket sidewall cam engaging projection 150.
- the cam groove surface upper detent 188 thus prevents the resealable container cap 160 from inadvertently backing out from the sealing position.
- the resealable container cap 160 is held in two positions by the detents 186, 188.
- the first position can be referred to as a transport retaining position and the second position can be referred to as a closed position.
- the distance between the two detents, measured along the rotational axis of the resealable container cap 160 is equal to the distance between the resealing surface on the resealable container cap 160 and the associated surface of the cap receiving socket bottom wall 134.
- the transport retaining detent, or cam groove surface lower detent 186 restricts the rotary movement of the resealable container cap 160 due to the interference between the stabilizing radially extending cap skirt 170 and the flat upper rim of the resealable container cap 160, as well as the interference between the piercing element or offset projecting incisor 168 and the socket cap receiving socket bottom panel tear panel 138.
- the socket sidewall cam engaging projections 150 on the socket's cylindrical sidewall follow the sloped cam groove surface segments 184 of the cam groove surfaces 180, which form gradual ramps, converting the rotary motion of the resealable container cap 160 to a linear or translational movement, which drives the resealable container cap 160 into the interior of the container 100.
- the socket sidewall cam engaging projections 150 follow the same route to their starting positions but after opening, the socket sidewall cam engaging projections 150 can pass over the transport retaining or cam groove surface lower detents 186 because the stabilizing radially extending cap skirt 170 and the cap receiving socket bottom panel tear panel 138 are now not providing any interference between the transport retaining or cam groove surface lower detents 186 and the void between the cam groove surfaces 180, allowing the resealable container cap 160 to be freed from the container.
- the exemplary cam groove surfaces 180 are shown as grooves having a sloped segment that terminates at opposite lower and upper ends in a lower and an upper detent 186, 188 (respectively), whereby the entire cam groove surfaces or elements 181, 182, 183 were formed in the resealable container cap cylindrical sidewall 162 of the resealable container cap 160. It is equally possible to form the cam groove surfaces or elements 181, 182, 183 as projections or bosses from the surface, integrally formed therewith, or as separate parts connected to the resealable container cap 160.
- the cap receiving socket 130 could have been formed with cam surfaces 181, 182, 183 and the cam followers or cam engaging projections 150 could have been formed on the resealable container cap 160.
- the exact size and shapes of the cam surfaces 181, 182, 183 can be selected to correspond to the particular needs of the container 100.
- the overall goal is to select a structure that results in an operable torque which can be applied by consumers without exerting excessive effort.
- preformed resealable container lids 110 are provided from a shell press.
- cap receiving sockets 130 are formed in the resealable container lids 110 using a conversion press.
- a score line is formed in the bottom of the cap receiving socket 130 in the conversion press, either at the same time, or sequentially after the cap receiving socket 130 is formed.
- Resealable container cap 160 are formed by injection molding, or other suitable means, and the resealable container caps 160 are supplied to the assembly line, where they are inserted into the sockets.
- the resealable container caps 160 are then secured to the sockets by press forming the projections by spacing three dies around the socket, all centered on a common plane.
- the dies are pressed inwardly against the cylindrical sidewall of the cap receiving socket 130, and the resealable container cap 160 acts as a mandrel against the inner pressing force of the dies, thus forming the socket sidewall cam engaging projections 150 to project into the grooves of the cam groove surfaces 180.
- the resealable container lids 110 or ends are then packaged and sent to bottlers, who can then use conventional processing steps to secure the lid to any of a variety of cans or other beverage containers.
- the lid does not have to be processed to form a rivet, which has conventionally been used to secure a pull tab to a can lid.
- a rivet Since there is no need for a rivet because there is no need for the pull tab.
- the rivet required the lid to be made of stronger, thicker material, usually consisting of a different alloy of aluminum as opposed to the material that made up the sidewall and bottom.
- the conventional process would have required the formation of a pull tab, likely to be made of third, different aluminum alloy.
- a further variation of manufacturing process is disclosed.
- a pre-formed resealable container lid 110 is provided from a shell press with a cap receiving socket 130 already formed.
- the resealable container lid 110 and cap receiving socket 130 are aligned directionally for a conversion press.
- a cap receiving socket bottom panel circular score line 136 is created in the conversion press, at the bottom of the cap receiving socket 130.
- Molded resealable container caps 160 are provided to the assembly line, and inserted into the molded resealable container cap 160.
- the molded resealable container caps 160 are secured to the cap receiving socket 130 by forming the socket sidewall cam engaging projections 150 in a manner described above, in which the resealable container cap 160 functions as a mandrel during formation of the projections.
- the resealable container lids 110 with secured resealable container caps 160 are packaged and shipped to bottlers or others for conventional filling, sealing, and shipment to customers.
- FIGS. 18 through 35 An alternative example of a container 200 is shown in FIGS. 18 through 35 , and includes a body having a container cylindrical sidewall 202 and opposite axial ends.
- the container 100 and container 200 include a number of similar features. Like features of the container 100 and the container 200 are numbered the same except preceded by the numeral '2'.
- the container 200 like that of the previous example (container 100), is illustrated in the size and shape of a common aluminum can used today for a wide variety of beverages, including soft drinks, juice drinks, beer, and the like.
- the body itself differs from the prior art in the features at the top end or lid of the container 100 where the features of the present example allow for opening and resealing the container 200.
- a container closed bottom wall 204 (seen in FIG. 20 ) is integrally formed at one of the axial ends with the container sidewall 202 in the known fashion of making aluminum cans.
- the body (202, 204) can be made of other materials and have other shapes, depending on either style, functionality or a combination of both.
- a resealable container lid 210 is attached to the open axial end of the body, at the open end defined by the container cylindrical sidewall 202, after filling the body (202, 204) with a beverage in the ordinary, and known, way of attaching resealable container lids or tops 110 to the containers 200. After assembly, the resealable container lid 210, container closed bottom wall 204 and container cylindrical sidewall 202 define a closed, interior space.
- a cap receiving socket 230 is formed in the resealable container lid 210 and includes a cylindrical sidewall 110 and a cap receiving socket bottom wall 234.
- the cap receiving socket 230 is located eccentrically so that it nears a peripheral edge of the resealable container lid 210 to facilitate drinking and pouring after opening.
- the cap receiving socket 230 further includes a cap receiving socket bottom panel circular score line 236 slightly inset from the peripheral edge of the cap receiving socket bottom wall 234 and forming a cap receiving socket bottom panel substantially closed loop tear panel 238.
- An cap receiving socket bottom panel centered score line 242 is provided at the center of the bottom wall cap receiving socket bottom wall 234 and preferably includes two intersecting score lines that form an "X" with the intersection of the two lines being at the center of the cap receiving socket bottom wall 234.
- the cap receiving socket bottom wall 234 further includes socket bottom panel ramps 290, 291, 292 which are equidistantly spaced around the periphery of the cap receiving socket bottom wall 234 inside the cap receiving socket bottom panel circular score line 236. A different number of ramps could be used, but three is preferable.
- the socket bottom panel ramps 290, 291, 292 are integrally formed in the cap receiving socket bottom wall 234.
- the cap receiving socket 230 further includes equidistantly spaced socket sidewall cam engaging projections 252, 254, 256 formed in the sidewall 110. From an interior view, such as that shown in FIGS. 22 and 34 , the projections such as projections 124 and 128 are shown as indentations, since the projections are formed from the sidewall material.
- the resealable container lid 210 also includes a resealable container lid upper surface reinforcement formation 218, as in the previous example, which may include instructional text to inform the consumer how to use the opening and resealing features of the container 200.
- a resealable container cap 260 fits into the cap receiving socket 230 and includes a resealable container cap cylindrical sidewall 262 and a bottom wall 136.
- a series of cam groove surfaces 281, 282, 283 are provided in the resealable container cap cylindrical sidewall 262 of the resealable container cap 260 at equidistantly spaced locations and are designed to receive the cam engaging projections 252, 254, 256, respectively, of the cap receiving socket 230, when the resealable container cap 260 is assembled within the cap receiving socket 230.
- container 200 is similar to container 100. When assembled and before opening the container, the resealable container cap 260 seats in the cap receiving socket 230 as shown in FIGS. 30 through 32 .
- the resealable container cap 260 further includes a resealable container cap handle or grip element 274 at the upper end of the resealable container cap 260 so that the consumer can turn the cap in either clockwise or counterclockwise directions.
- the upper perimeter of the resealable container cap 260 is provided with a radially extending cap skirt 270 which provides a tamper resistant feature, whereby the skirt would extend upwardly if the cap had been turned to cause the resealable container cap 260 to descend further into the cap receiving socket 230.
- the radially extending cap skirt 270 and all other features of the resealable container cap 260 are integrally formed in a one-piece construction preferably of a plastic material. Other materials could be used including ceramic and metallic materials.
- a sharp centered incising projection 269 is formed in the center of the bottom surface of the resealable container cap 260, so that when the resealable container cap 260 is fitted in the cap receiving socket 230, prior to opening the beverage can 100, the point of the sharp centered incising projection 269 is positioned next to or juxtaposed at the center of the bottom surface of the cap receiving socket 230, at the point of intersection between the two lines that form the cap receiving socket bottom panel centered score line 242.
- the sharp centered incising projection 269 punctures the cap receiving socket bottom wall 234 of the cap receiving socket 230 as the resealable container cap 260 moves linearly downwardly and further into the cap receiving socket 230 during opening operation of the beverage can 200.
- An offset projecting incisor 268 is formed along an outer region of the bottom surface of the resealable container cap 260, so that when the resealable container cap 260 is fitted in the cap receiving socket 230, prior to opening the beverage can 100, the point of the sharp offset projecting incisor 268 is positioned in alignment with the cap receiving socket bottom panel circular score line 236 formed in the bottom surface of the cap receiving socket 230, as best shown in FIG. 30 .
- the sharp offset projecting incisor 268 fractures the cap receiving socket bottom panel circular score line 236 formed in the cap receiving socket bottom wall 234 of the cap receiving socket 230 as the resealable container cap 260 moves linearly downwardly and further into the cap receiving socket 230 during opening operation of the beverage can 100.
- FIG. 25 is a top view of the beverage container prior to opening.
- the resealable container lid upper surface reinforcement formation 218 is embossed, printed or otherwise marked with instructions for how to use the resealable container cap 260.
- the consumer is instructed to open the beverage container by turning, or rotating, the resealable container cap 260 in the clockwise direction.
- the degree of slope on the ramps and the degree of slope on the spiral grooves is selected to ensure that the container 200 can be opened with the same or similar amount of force used to open a conventional beverage container, such as a soda can. This can be accomplished with a turning motion of the cap that is in the range of 45 to ninety degrees (45-90°), preferably.
- the resealable container cap 260 pushes the cap receiving socket bottom panel loop tear panel 238 into the can, but the tear panel 238 stays connected to the resealable container lid 210 through a portion of the lid between the ends of the cap receiving socket bottom panel circular score line 236.
- the consumer turns, twists or rotates the resealable container cap 260 in the opposite direction until returning past the starting point from where the opening rotation started, placing the cam engaging projections 252, 254, 256 in the opened area of the cam groove surfaces 281, 282, 283.
- the resealable container cap 260 is pulled upwardly by the consumer to become separated from the container 200, and the consumer is then free to drink from the opening formed in the resealable container lid 210 as a result of the cap receiving socket bottom panel substantially closed loop tear panel 238 being pushed into the container 100.
- the consumer can reseal or close the beverage container by pushing the resealable container cap 260 back into the cap receiving socket 230 and then turning, twisting or rotating the resealable container cap 260 in the same direction as the opening direction, until the resealable container cap 260 is fully seated in the cap receiving socket 230, thus sealing the opening in the container 200.
- the contents of the container 200 can be kept fresh, carbonated (in the case of carbonated drinks), and spill-proof (when the beverage container 200 is mobile, such as if kept in a back pack, stroller, automobile drink holder, and the like).
- the disclosure includes an assembled container 200, with or without contents, with a unique resealing mechanism.
- the disclosure also includes a container subassembly comprising a resealable container lid 210 and a resealable container cap 260, capable of further assembly with a container body 202, 204, such as beverage containers commonly in use as aluminum cans for distribution of a wide variety of beverages.
- the disclosure further includes a resealable container cap 260 capable of use with a resealable container lid 210, or with a container 200 that includes a resealable container lid 210, such that the beverage containers could be purchased without resealable container caps 260, and could separately purchase resealable container caps 260 that are then used with the containers 200 that are formed with the aforementioned cap receiving socket 230.
- resealable container caps 260 could be re-used, repeatedly. Purchase of resealable container caps 260 separately from the containers 200 would have a "green" effect, in that the resealable container caps 260 could be washed and re-used over and over, thereby reducing waste.
- FIGS. 36 and 37 Another feature is to provide a resealable container cap 360, as illustrated in FIGS. 36 and 37 .
- the resealable container cap 260 and resealable container cap 360 include a number of similar features. Like features of the resealable container cap 260 and the resealable container cap 360 are numbered the same except preceded by the numeral '3'.
- the resealable container cap 360 includes the features presented above, including the cap bottom surface ramps 394, 395, and 396, and cam groove surfaces 381, 382, and 383. As with the other examples, the resealable container cap 360 has a cap receiving socket bottom wall 334 from which the ramps project.
- a cap sealing ring 365 is provided on the surface of the cap receiving socket bottom wall 334 near the periphery thereof.
- the cap sealing ring 365 is made of an elastomeric material that is different from the material that constitutes the resealable container cap 360, which is preferably made of a hard plastic material.
- the material which forms the cap sealing ring 365 can be injected through ports into a mold and formed on the resealable container cap 360 at the same time that the resealable container cap 360 is being injection molded.
- the cap sealing ring 365 can be a separate preformed item that can be adhesively bonded in place after the resealable container cap 360 is removed from its mold.
- a central sharp projection 241 is formed in the center of the bottom surface of the resealable container cap 360, wherein the central sharp projection 241 is similar to the sharp centered incising projection 269 described above in design, location and function.
- An offset projecting incisor 368 is formed along an outer region of the bottom surface of the resealable container cap 360, wherein the offset projecting incisor 368 is similar to the offset projecting incisor 268 described above in design, location, and function.
- thermoplastic elastomers Any of a variety of thermoplastic elastomers (TPEs) can be used to make the cap sealing ring 365, and selection of the precise one is a matter of design choice, as the requirements are simply that the material be easy to mold, easily adherent to the material that makes up the cap, and to some degree deformable under pressure (in use). Other materials could be used if a sealing ring is pre-made and adhesively bonded to the end face or bottom wall of the cap. However, molding the ring in place is preferred. As for TPEs, they are sometimes referred to as thermoplastic rubbers, and are in a class of copolymers or a mixture of polymers which consist of both thermoplastic and elastomeric properties. They are particularly suitable for injection molding, which is the preferred way to form the cap sealing ring 365 on the face of the resealable container cap 360.
- TPEs thermoplastic elastomers
- FIG. 38 there are two ramps 390, 391 illustrated as opposed to three, which are found in the other examples. Essentially any number of ramps can be employed, but two or three are more preferred for reasons that two or three can generate an opening force without requiring too much torque, and they are easier to manufacture than a number greater than three.
- a cap used in FIG. 38 has two ramps on the lower end face that are shaped and positioned compatibly with the socket bottom panel ramps 390 and 391 shown in FIG. 38 .
- the resealable container cap 360 operates in the same way as the caps of previous examples, in that the consumer turns the cap in one direction to open the container, then turns the resealable container cap 360 in the opposite direction to remove the resealable container cap 360, and then the resealable container cap 360 is re-inserted into the cap receiving socket 230 and turned in the first, container-opening direction until the resealable container cap 360 is fully seated in the cap receiving socket 230.
- the resealable container cap 260 is shown in this fully seated position in FIG.
- the cap is provided with a resealable container cap handle or grip element 174, as seen in FIGS. 10, 11 and 13a , for example.
- An alternative resealable container cap grip element 374 is shown in FIGS. 39 and 40 , in which the resealable container cap grip element 474 includes two parallel resealable container cap grip element first cross member 476 and 478, spaced apart by an amount sufficient to fit a force enhancing, or grip enhancing implement 479, such as a coin or other object made of a material that is rigid and strong enough to transfer torque from the consumer's hand to the resealable container cap 460.
- the container 300 can be sold as an assembly which includes the resealable container cap 460 and the implement (coin) 479 (assuming it is not a coin), a subassembly including the resealable container lid 410, resealable container cap 460 and grip enhancing implement 479 (without the container body and sealed contents), or the resealable container cap 460 can be sold by itself.
- the implement (coin) 479 assuming it is not a coin
- the resealable container cap 460 can be sold by itself.
- a resealable container lid 410 includes a cap receiving socket bottom wall 434 which includes a cap receiving socket bottom wall 434.
- the cap receiving socket bottom wall 434 includes three socket bottom panel ramps 490, 491 and 492, and a cap receiving socket bottom panel tear panel 438 defined by a cap receiving socket bottom panel circular score line 436.
- the cap receiving socket bottom panel circular score line 436 as in one of the previous examples is in the form of a loop, not quite fully disposed, so that a hinge is defined between the opposite ends of the cap receiving socket bottom panel circular score line 436.
- the cap receiving socket bottom panel circular score line 436 is made during the formation steps that create the resealable container lid 410, which in the case of beverage cans, is made of 0.008 inch thick material.
- the score line 436 is typically 0.004 inch deep, so that the thickness of the lid 410 under the score line 436 is typically about 0.004 inch thick for aluminum beverage cans.
- the thinning of the material occurs during pressing of the lid 410, and in essence, the material which comprises the lid 410 is deformed and flows to create a thinned area beneath the score line 436.
- a score line thinned fracture initiation region 437 is formed at one end of the cap receiving socket bottom panel circular score line 436 where one of the ramps 394, 395, 396 in conjunction with ramps 490, 491, 492 will impinge upon the score line 436.
- the ramps 394, 395, 396 in conjunction with ramps 490, 491, 492 push on the flared, score line thinned fracture initiation region 437, which has been thinned essentially to the thickness of the sidewall 102, 202 of the container 100, 200, in the case of an aluminum can.
- the entire area of the puncture area is thinned relative to the surrounding surface of the lid 410 to make it easier to puncture or break the score line 436.
- the break will propagate more readily and predictably around the score line 436 to ease the opening of the container 100, 200.
- the score line thinned fracture initiation region 437 is thinner, and thus potentially more vulnerable to accidental opening, it is no thinner than the sidewall of the beverage container and thus capable of withstanding internal pressures. It is also shielded from accidental external rupture by means of the cap 460 when seated in the socket 430.
- each embodiment described herein has referred to a tear panel, such as cap receiving socket bottom panel tear panel 138, as that part of the bottom wall of the socket that is defined by a circular or loop-shaped score line.
- This tear panel can also be described as a "frangible area" because it breaks away from the rest of the bottom wall 138, 238, 338, 438 when the cap 160, 260, 360, 460 descends into the socket 130, 230, 330, 430. It is not required, however, for the tear panel 138, 238, 338, 438 or frangible area to be substantially circular or looped in shape, and indeed, as it is shown in FIG. 38 .
- the bottom wall 334 is provided with an cap receiving socket bottom panel "S" shaped score line 344 which, when fractured by operation of the down movement of the cap and engagement of socket bottom panel ramp 390 and 391, the fracture forms two separate tear panels 338 which are pushed inwardly during the opening operation, with the two tear panels 338 being connected to the can by a hinge area 339 on opposite sides of the cap receiving socket bottom wall 334.
- the sharp protrusion in the middle of the bottom wall of the cap will puncture the center of the score line 344 at a score line fracture thinned initiation region 346.
- the ramps 390, 391, 392, 393 of the cap receiving socket 330 and the ramps 394, 395, 396 of the resealable container cap 360 cooperate to push the tear panels 338 at locations opposite what will become the hinges 339, in essentially the "loop" portions of the cap receiving socket bottom panel “S” shaped score line 344. Simultaneously, two tear panels 338 are formed and pushed into the interior of the container 100, 200.
- the resealable container cap handle or grip element 274, 474 is turned preferably ninety degrees (90°) in one direction, and then to withdraw the resealable container cap 260, 360, 460 from the socket, the grip 274, 474 is turned ninety degrees (90°) in the opposite direction, to the beginning point.
- the grip is turned approximately another ten degrees (10°) until the grooves and protrusions are separated and the resealable container cap 260, 360, 460 is free to be lifted upwardly away from the container.
- the peak height of the ramps be disposed near or in close proximity to the hinge, as this will help push the tear panel 238, 338, 438 out of the way when the cap's cam body pushes through the opening.
- the ramps help propagate the ruptured score line along its length.
- a resealable container lid 510 illustrated in FIGS. 42 through 78 , is another exemplary variant of the resealable container lid concepts previously described herein.
- the resealable container lid 510 (detailed in FIGS. 42 through 44 ) and the resealable container cap 560 (detailed in FIGS. 45 through 47 ) include a portion of features that are similar to those of the resealable container lid 110 and resealable container lid 210 and those of the resealable container cap 160 and resealable container cap 260, respectively.
- resealable container lid 510 and the resealable container lid 110 and resealable container lid 210 are numbered the same except preceded by the numeral '5'.
- Like features of the resealable container cap 560 and the resealable container cap 160 and resealable container cap 260 are numbered the same except preceded by the numeral '5'.
- the resealable container lid 510 is preferably formed from a single sheet of metal using any suitable metal forming process or combination of metal forming processes.
- the resealable container lid 510 is formed having a substantially vertical sidewall 522, 532 and a generally horizontally arranged cap receiving socket bottom wall 534.
- the substantially vertical sidewall 522, 532 is configured having a cylindrical shape extending between an upper peripheral edge and a lower peripheral edge.
- a cap receiving socket 130 was formed extending downward from a portion of the resealable container lid planar base bottom 119. More specifically, the cap receiving socket 130 is defined by a cap receiving socket cylindrical sidewall 132 in combination with the cap receiving socket bottom wall 134. The cap receiving socket 130 is preferably located off-centered respective to a peripheral edge of the resealable container lid 110.
- a cap receiving socket is defined by the cap receiving socket cylindrical sidewall 532 in combination with the cap receiving socket bottom wall 534. More specifically, the resealable container lid 510 is formed deeper to include the cap receiving socket cylindrical sidewall 532 as part of the outer peripheral sidewall, making the cap receiving socket bottom wall 534 the same as the container lid planar base bottom 119.
- the cap receiving socket is concentrically arranged respective to the cap receiving socket cylindrical sidewall 532 of the resealable container lid 510.
- a peripheral countersink 526 provides a transition between the cap receiving socket cylindrical sidewall 532 and the cap receiving socket bottom wall 534.
- the peripheral countersink 526 is preferably formed having a generally "U" shape, extending downward from the cap receiving socket cylindrical sidewall 532, then radially inward arching from a downward direction to an upward direction, and extending upward where the peripheral countersink 526 transitions into a peripheral edge of the cap receiving socket bottom wall 534.
- the peripheral countersink 526 can be used to reference a lower peripheral edge.
- the peripheral countersink 526 extends downward below an upper surface of the cap receiving socket bottom wall 534.
- the peripheral countersink 526 provides a clearance for a lower region of a resealable container cap cylindrical exterior sidewall 562 of the resealable container cap 560 during assembly of the resealable container cap 560 and the resealable container lid 510 to one another.
- the resealable container lid 510 includes a number of functional features.
- a seaming panel 520 is formed about an upper edge of the resealable container lid 510, wherein the seaming panel 520 is provided to assemble the resealable container lid 510 to a container seaming flange 106 ( FIG. 82 ).
- the resealable container lid 510 is assembled to a top rim of the container cylindrical sidewall 102, sealing contents within a resealable container 500, as shown in FIGS. 82-85 .
- the resealable container lid 510 includes features enabling a user to access the contents sealed within the resealable container 500.
- a resealable container cap 560 is employed to enable a user to breach the sealed resealable container lid 510 and access or dispense the contents stored within the resealable container 500. Additionally, the resealable container cap 560 may be employed to enable a user to reseal / close the opened resealable container lid 510 preserve and protect the contents stored within the resealable container 500.
- a cap receiving socket bottom panel tear panel 538 is designed into the resealable container lid 510 enabling the user to access the contents stored within the container.
- the cap receiving socket bottom panel tear panel 538 is defined by a cap receiving socket bottom panel circular score line 536 formed within the cap receiving socket bottom wall 534 of the resealable container lid 510.
- the cap receiving socket bottom panel tear panel 538 can be formed in at least one of a top surface of the cap receiving socket bottom wall 534 and a bottom surface of the cap receiving socket bottom wall 534.
- the cap receiving socket bottom panel circular score line 536 can be routed in any suitable shape defining the cap receiving socket bottom panel tear panel 538.
- the cap receiving socket bottom panel circular score line 536 is formed extending between two ends in a generally circular shape.
- the two ends are spatially arranged creating a tear panel hinge 539.
- At least one end can be configured extending outward from an interior region or cap receiving socket bottom panel tear panel 538 defined by the cap receiving socket bottom panel circular score line 536.
- the at least one outward extending end of the cap receiving socket bottom panel circular score line 536 deters against tearing of the material between the two ends of the cap receiving socket bottom panel circular score line 536.
- the preferred cap receiving socket bottom panel circular score line 536 would include a configuration where both ends include the outward extending formation.
- the outward extending formation can be linear, arched, or of any other suitable shape.
- the cap receiving socket bottom panel tear panel 538 is designed to open when the resealable container cap 560 is rotated in a counterclockwise direction, wherein the opening is defined as a dispensing aperture.
- the dispensing aperture can be sized to dispense a beverage and/or a food product, wherein the beverage and/or food product are collectively referred to as comestible.
- the exemplary embodiment is directed towards a container adapted for retaining, distributing, and consuming a beverage, such as water, carbonated drinks, fruit drinks, milk, beer, wine, and the like.
- container lid 510 can be used for smaller food products, such as peanuts and other nuts, candy, mints, gumdrops, confections, jelly beans, condiments, soups, oils, spices, powdered products (baking soda, sugar, flour), and the like.
- a seaming chuck shoulder 524 can be formed about a central portion of the vertical wall, segmenting the wall into a seaming chuck wall 522 (upper portion) and a cap receiving socket cylindrical sidewall 532 (lower portion).
- the seaming chuck shoulder 524 can be considered as an upper peripheral edge of the cap receiving socket cylindrical sidewall 532.
- a plurality of cam tracks 552, 554, 556 is formed within the cap receiving socket cylindrical sidewall 532.
- the plurality of cam tracks 552, 554, 556 is spatially arranged about the cap receiving socket cylindrical sidewall 532.
- the plurality of cam tracks 552, 554, 556 run generally horizontally, having slight upward and/or downward deviations to accomplish upward and/or downward motions of the resealable container cap 560.
- the cam tracks 552, 554, 556 provide several functions, including rotational and axial motions between the resealable container lid 510 and the resealable container cap 560, reinforcement of the vertical wall, a retention mechanism for retaining the resealable container cap 560 within the cap receiving socket of the resealable container lid 510, and other functions.
- the cam tracks 552, 554, 556 are segmented functionally into a plurality of sections, as shown in FIGS. 52 and 53 . Details of the plurality of sections of the cam tracks 552, 554, 556 will be described later herein.
- the cam tracks 552, 554, 556 are preferably formed as embossed features extending inward from the cap receiving socket cylindrical sidewall 532.
- An inter-cam relief section 551, 555, 553 extends between adjacent ends of adjacent cam tracks 552, 554, 556.
- the inter-cam relief sections 551, 555, 553 enable passage of a respective cam follower 581, 582, 583 of the resealable container cap 560 from a position above the cam tracks 552, 554, 556 to a position below the cam tracks 552, 554, 556.
- a resealable container lid upper surface reinforcement formation 518 can be included and would be formed as either an embossed feature or a debossed feature within the cap receiving socket bottom wall 534.
- the resealable container lid upper surface reinforcement formation 518 is defined by a socket bottom wall to surface reinforcement formation transition 541.
- the cap receiving socket bottom panel tear panel 538 would be located within the resealable container lid upper surface reinforcement formation 518.
- the resealable container lid upper surface reinforcement formation 518 would be shaped to support the material of the resealable container lid upper surface reinforcement formation 518 adjacent to the cap receiving socket bottom panel circular score line 536 to increase the efficiency of the propagation of the fracture when the opening force is applied by the resealable container cap 560 onto the associated features of the cap receiving socket bottom panel tear panel 538.
- the resealable container lid upper surface reinforcement formation 518 provides a clearance for an incisor deboss panel 566 on the resealable container cap 560 and the resealable container lid upper surface reinforcement formation 518 lowers the top surfaces of the lead in supplemental score fracture propagation and tear panel support boss 597, the tear panel reinforcing boss 598, and the finishing score fracture propagation and tear panel fold urging boss 593 of the cap receiving socket bottom panel tear panel 538 resulting in a clearance to the bottom surface of the resealable container cap planar traversing wall 564 of the resealable container cap 560.
- the incisor deboss panel 566 is described as such as when viewing from an exterior surface of a resealable container cap 560 formed from a single sheet of material, the incisor deboss panel 566 appears as a recession extending downward from the resealable container cap planar traversing wall 564.
- the incisor deboss panel 566 can be referred to as an incisor platform 566, as the incisor platform 566 extends downward from a bottom surface of the resealable container cap planar traversing wall 564.
- the resealable container lid 510 can include one or more features to reinforce desired areas of the resealable container lid 510.
- Reinforcement features can be integrated into the cap receiving socket bottom wall 534 and/or the vertical sidewall.
- the reinforcement features can provide any of several functions, including retention of a shape of the associated segment of the resealable container lid 510, movement between the resealable container cap 560 and the resealable container lid 510, reinforcement during initiation and/or propagation of a fracture of a cap receiving socket bottom panel circular score line 536, clearance for features during operation, retention of the resealable container cap 560 within the cap receiving socket of the resealable container lid 510, and the like.
- the seaming chuck shoulder 524 provides some rigidity to the vertical sidewall.
- the cam tracks 552, 554, 556 provide additional rigidity to the vertical sidewall.
- the peripheral countersink 526 provides support about the lower edge of the vertical sidewall and the peripheral edge of the cap receiving socket bottom wall 534. The peripheral countersink 526 introduces some flexibility between the lower edge of the vertical sidewall and the peripheral edge of the cap receiving socket bottom wall 534, which will be described in more detail when discussing a retort process.
- the socket bottom wall to surface reinforcement formation transition 541 (defining the resealable container lid upper surface reinforcement formation 518) supports the portion of the resealable container lid upper surface reinforcement formation 518 adjacent to the cap receiving socket bottom panel circular score line 536 to increase the efficiency of the propagation of the fracture when the opening force is applied by the resealable container cap 560 onto the associated features of the cap receiving socket bottom panel tear panel 538.
- An incisor pathway channel 517 can be formed within the resealable container lid upper surface reinforcement formation 518.
- the incisor pathway channel 517 is preferably formed having a semi-circular, debossed shape concentric with an axis of rotation of the resealable container cap 560.
- One end of the incisor pathway channel 517 terminates at an incisor channel to tear panel surface transition 592, wherein the incisor channel to tear panel surface transition 592 is located proximate and/or abutting a fracture initiating region of a cap receiving socket bottom panel circular score line 536.
- the incisor pathway channel 517 provides several functions, including increasing a rigidity of the resealable container lid upper surface reinforcement formation 518 and providing a clearance for an incisor 568 during rotation of the resealable container cap resealable container cap 560, wherein the offset projecting incisor 568 extends downward from a lower surface of the resealable container cap 560.
- the exemplary embodiment includes a series of ribs 593, 597, 598 for reinforcing the cap receiving socket bottom panel tear panel 538. These formations reinforce the cap receiving socket bottom panel tear panel 538 in both a radial direction and a tangential direction respective to a rotational motion of the resealable container cap 560.
- the series of ribs 593, 597, 598 transfers and distributes a force applied by features of the resealable container cap 560 across the cap receiving socket bottom panel tear panel 538, directing the applied force to the cap receiving socket bottom panel circular score line 536, propagating a fracturing of the cap receiving socket bottom panel circular score line 536 along a length of the cap receiving socket bottom panel circular score line 536.
- the lower edge of the resealable container cap cylindrical exterior sidewall 562 can be rolled to reinforce the circumferential lower edge thereof, as well as eliminating any sharp edges of the resealable container cap 560.
- the resealable container cap 560 can be formed in any suitable configuration, with several variations of the container cap being described herein. Each of the variants of the container caps can be fabricated of any suitable metal, aluminum, steel, plastic, composite materials, fiber reinforced plastics, or any other suitable material.
- the exemplary resealable container cap 560 is formed from a single sheet of material using at least one commonly known metal forming process or other manufacturing process associated with the selected material.
- the exemplary resealable container cap 560 includes a vertical sidewall circumscribing a peripheral edge of a resealable container cap planar traversing wall 564.
- the vertical sidewall includes an upward extending resealable container cap cylindrical interior sidewall 563 and a downward extending resealable container cap cylindrical exterior sidewall 562.
- the upward extending resealable container cap cylindrical interior sidewall 563 and the downward extending resealable container cap cylindrical exterior sidewall 562 are generally perpendicular to a resealable container cap planar traversing wall 564.
- a cylindrical sidewall inverted countersink 570 is formed about an upper end of the vertical sidewall, the cylindrical sidewall inverted countersink 570 being a transition between the resealable container cap cylindrical interior sidewall 563 and the resealable container cap cylindrical exterior sidewall 562.
- the cylindrical sidewall inverted countersink 570 can be formed having an inverted "U" shape.
- the resealable container cap cylindrical exterior sidewall 562 is preferably dimensioned so that it fits within a generally vertical clearance between the proximal surfaces of the cam tracks 552, 554, 556 and the peripheral edge of the cap receiving socket bottom wall 534 (essentially, an inner wall of the peripheral countersink 526).
- the resealable container cap cylindrical exterior sidewall 562 is preferably designed so that it curves out towards the cap receiving socket cylindrical sidewall 532, closing the gap created between the cap receiving socket cylindrical sidewall 532 and resealable container cap cylindrical exterior sidewall 562 to provide clearance for the cam tracks 552, 554, 556. It is understood that by closing this gap the container lid assembly can decrease the possibility of contaminants entering the gap between the cap receiving socket cylindrical sidewall 532 and resealable container cap cylindrical exterior sidewall 562.
- An offset projecting incisor 568 extends downward from a bottom surface of the resealable container cap planar traversing wall 564.
- the offset projecting incisor 568 can be located within a incisor deboss panel 566, wherein the incisor deboss panel 566 is a debossed feature providing several functions, including lowering the offset projecting incisor 568, reinforcing an area of the material surrounding the offset projecting incisor 568, a distributed compression force applicator, and other functions.
- a ring shaped cap sealing ring 565 is applied to a peripheral edge of a bottom surface of the resealable container cap planar traversing wall 564.
- the cap sealing ring 565 is fabricated of any suitable pliant material, including an elastomer, an elastomeric polymer, plastisol, a low durometer rubber, or any other suitable pliant sealing material.
- a series of cam followers 581, 582, 583 are spatially arranged along a lower edge of the resealable container cap cylindrical exterior sidewall 562.
- the cam followers 581, 582, 583 are preferably formed using any suitable metal forming process, such as crimping process.
- the cam followers 581, 582, 583 would be sized and spatially arranged and located to be in alignment with the respective inter-cam relief sections 551, 555, 553.
- the cam followers 581, 582, 583 are sized and spatially arranged to pass through each respective inter-cam relief section 551, 555, 553 for engagement with a lower surface of the respective cam track 552, 554, 556.
- the interaction between the cam followers 581, 582, 583 and the respective cam track 552, 554, 556 converts a rotational motion of the resealable container cap 560 within the cap receiving socket of the resealable container lid 510 into at least one of an axial motion and an axial force applicator.
- the peripheral countersink 526 of the resealable container lid 510 is sized and shaped to receive the bottom edge of resealable container cap cylindrical exterior sidewall 562 and the cam followers 581, 582, 583 formed on the bottom edge of resealable container cap cylindrical exterior sidewall 562.
- At least one resealable container cap grip element 574 is formed extending upward from the top surface of the resealable container cap planar traversing wall 564 of the resealable container cap 560.
- the resealable container cap grip element 574 can be formed having any suitable shape.
- the resealable container cap grip element 574 would be of a height that retains a top edge of the resealable container cap grip element 574 at or below a top edge or surface of the seam of the container (container body and lid assembly seam 509 of FIG. 90 ).
- the resealable container cap planar traversing wall 564 is recessed within a cavity defined by the resealable container cap cylindrical interior sidewall 563, wherein the recessed resealable container cap planar traversing wall 564 enables the resealable container cap grip element 574 to project upward therefrom, while retaining a minimum overall height from the bottom of the resealable container cap 560.
- the resealable container cap grip element 574 would include at least one cap grip element force application surface 575.
- the cap grip element force application surface 575 would be sized to ergonomically and adequately support a force applied by the end user.
- each at least one cap grip element force application surface 575 to apply a force to the resealable container cap 560.
- the force is translated into a rotational or torsional force for urging the resealable container cap 560 into a counterclockwise (score line fracturing) motion or a clockwise (closing) motion.
- the cam tracks 552, 554, 556 are segmented into a plurality of functional sections, as best shown in FIGS. 52 and 53 . Initially, each cam follower 581, 582, 583 is aligned with the respective inter-cam relief section 551, 555, 553, as best shown in FIGS. 44 , 48 , 49 , and 54 .
- the resealable container cap 560 is inserted into the cap receiving socket of the resealable container lid 510, wherein the cam followers 581, 582, 583 pass through the respective inter-cam relief sections 551, 555, 553, creating a container lid assembly as shown in FIG. 50 .
- the resealable container lid 510 and the resealable container cap 560 are geometrically related with one another.
- the first formed cam follower 581 is aligned with the first inter-cam relief section 551 during initial assembly of the resealable container cap 560 into the cap receiving socket of the resealable container lid resealable container lid 510, as shown in the side elevation exploded assembly view of FIG. 54 . Additionally, this alignment inserts the offset projecting incisor 568 into the incisor pathway channel 517, as shown in FIG. 55 and 56 .
- the assembly requires a significant downward force in combination with a counterclockwise rotation, compressing a cap sealing ring 565 sufficiently enough to locate the first formed cam follower 581 along a bottom edge of the cam track assembly / locking detent segment 552A of the first socket cam track 552.
- the significant downward force compresses the cap sealing ring 565, as shown in FIGS. 55 , 56 , 57 .
- the initial contact is illustrated in FIG. 56 , where the cap sealing ring 565 is in contact with the top surface of the cap receiving socket bottom wall 534, but not yet compressed.
- the cap sealing ring 565 is compressed, as illustrated in FIG. 57 .
- the cam track assembly / locking detent segment 552A is configured being the lowest point of the cam track 552.
- cam tracks 552, 554, 556 retain the resealable container cap 560 with the cap receiving socket of the resealable container lid 510 by the cam followers 581, 582, 583.
- the cam track assembly / locking detent segment 552A retains the resealable container cap 560 within the cap receiving socket of the resealable container lid 510, when subjected to a clockwise motion.
- the offset projecting incisor 568 butts up against the incisor channel to tear panel surface transition 592 to retain the resealable container cap 560 within the cap receiving socket of the resealable container lid 510, when subjected to a continuing counterclockwise motion.
- Registration between the offset projecting incisor 568 and the incisor channel to tear panel surface transition 592 is best shown in FIGS. 60 and 61 .
- the initial assembly step is adapted for completion by a mechanical device, such as an assembly machine.
- the forces required are designed to deter accomplishment of the initial assembly step by an individual.
- the subsequent steps are adapted to be accomplished by the end user.
- the container lid opening sequence which is directed towards completion by the end user.
- the continuing motion causes the offset projecting incisor 568 to impinge upon the incisor channel to tear panel surface transition 592, initializing a fracture of the cap receiving socket bottom panel circular score line 536, as shown in FIGS. 61 , 67 , 71 .
- the first formed cam follower 581 transitions from the cam track initial / resealed segment 552B to a cam track height transition segment 552C, as best shown in FIGS. 62 , 68 , 72 .
- the bottom surface of the offset projecting incisor 568 begins to ride upon a top surface of the incisor channel to tear panel surface transition 592, wherein the offset projecting incisor 568 begins to force the cap receiving socket bottom panel tear panel 538 into the resealable container 500.
- the bottom surface of the incisor deboss panel 566 begins to ride upon a top surface of the lead in supplemental score fracture propagation and tear panel support boss 597, wherein the incisor deboss panel 566 performs at least one function of propagating the fracture of the cap receiving socket bottom panel circular score line 536 and traversely distributes the axial force applied by the offset projecting incisor 568 to the incisor channel to tear panel surface transition 592 out to the bifurcated score line fracture 536.
- the resealable container cap 560 separates slightly from the resealable container lid 510 in an axial direction, separating cap sealing ring 565 from contact with the upper surface of the cap receiving socket bottom wall 534 of the resealable container lid 510. This separation decreases or eliminates any parasitic drag or continued friction between the cap sealing ring 565 and the upper surface of the cap receiving socket bottom wall 534 and enables continued counterclockwise rotation of the resealable container cap 560 to propagate the fracturing of the cap receiving socket bottom panel circular score line 536.
- this separation allows the venting of the pressurized gases released from the resealable container 500 when the offset projecting incisor 568 impinged upon the incisor channel to tear panel surface transition 592, initializing the fracture of the cap receiving socket bottom panel circular score line 536, in order to avoid the resealable container cap 560 from becoming a projectile if released from the container lid socket while still retaining pressure from the opened resealable container 500.
- the first formed cam follower 581 transitions from the cam track height transition segment 552C to a cam track operating segment 552D, as best shown in FIGS. 63 , 69 , 73 .
- the bottom surface of the offset projecting incisor 568 begins to ride upon a top surface of the tear panel surface incisor pathway 591, continuing to generate an axial force for propagating the bifurcated score line fracture 536 and further separating the cap sealing ring 565 and the upper surface of the cap receiving socket bottom wall 534.
- the incisor deboss panel 566 in conjunction with the arrangement the ribbed support structures lead in supplemental score fracture propagation and tear panel support boss 597, 598, 593 on the cap receiving socket bottom panel tear panel 538, further the propagation of the fracture of the cap receiving socket bottom panel circular score line 536 by distributing the applied loading force from the resealable container cap 560, as shown in FIG.
- the process In addition to propagating the fracture of the cap receiving socket bottom panel circular score line 536, the process also folds the cap receiving socket bottom panel tear panel 538 about the tear panel hinge 539, away from the resealable container lid upper surface reinforcement formation 518.
- the load is sustained by the cam followers 581, 582, 583 riding against the bottom surface of the respective cam track 552, 554, 556.
- the offset projecting incisor 568 rides up tear panel surface incisor pathway to tear panel fold boss transition 590, as shown in FIGS. 64 , 70 , and 74 , and subsequently transitions onto the finishing score fracture propagation and tear panel fold urging boss 593, as shown in FIGS. 65 and 75 .
- the incisor deboss panel 566 separates from the top surface of the ribbed support structure 597, 598, 593.
- the cam followers 581, 582, 583 are guided into the adjacent inter-cam relief section 551, 555, 553, enabling removal of the resealable container cap 560 from the resealable container lid 510. More specifically, the conclusion of the opening sequence locates the first formed cam follower 581 within the third inter-cam relief section 555, enabling the axial withdrawal of the resealable container cap 560 from the resealable container lid 510, as shown in FIG. 76 .
- the shape of the cam tracks 552, 554, 556, more specifically, the cam track cam follower leader section 552E, is designed such to provide a clearance between the bottom of the offset projecting incisor 568 and the top surface of the resealable container lid upper surface reinforcement formation 518 to avoid any binding or other interference of the rotation of the resealable container cap 560.
- the combination of the cam track assembly / locking detent segment 552A and cam track cam follower leader section 552E ensures the reinstallation of the resealable container cap 560 into the cap receiving socket is only in a clockwise direction.
- the revised, opened configuration of the resealable container lid 510 enables the user to insert the resealable container cap 560 into the cap receiving socket to reseal the resealable container 500 in any of the three potential orientations.
- the incisor pathway channel 517 provides clearance for the offset projecting incisor 568 in any orientation.
- the associated cam follower 581, 582, 583 is rotated to engage with the respective sealing section of the cam track 552, 554, 556 (as referenced by cam track initial / resealed segment 552B of the first socket cam track 552), causing the cap sealing ring 565 to compress against the top surface of the cap receiving socket bottom wall 534, providing an air and liquid tight seal therebetween.
- the resealable container cap 560 can include a tamper indicator, such as the off-center tamper indicator feature 528, shown in FIGS. 45-47 , and shown functioning in FIGS. 77 , 78 .
- the off-center tamper indicator feature 528 includes an off-center tamper indicator operation element 529, wherein the off-center tamper indicator operation element 529 mechanically operates the off-center tamper indicator feature 528.
- the off-center tamper indicator operation element 529 contacts the opposing surface of the resealable container lid upper surface reinforcement formation 518.
- the resealable container lid upper surface reinforcement formation 518 maintains a rigid (non-pliable) form when the resealable container 500 is in a sealed (unopened) condition, as shown in FIG. 77 .
- the rigidity is provided by an internal pressure within the resealable container 500.
- the rigidity of the resealable container lid upper surface reinforcement formation 518 supports the off-center tamper indicator operation element 529, which in turn inhibits any motion of the off-center tamper indicator feature 528.
- the supporting pressure from within the resealable container 500 is reduced or removed, thus removing any support provided by the resealable container lid upper surface reinforcement formation 518 to the off-center tamper indicator operation element 529, resulting in a flexible condition of the off-center tamper indicator feature 528, now allowing the off-center tamper indicator feature 528 to "report", as shown in FIG. 78 .
- Another feature of the configuration of the resealable container lid 510 and resealable container cap 560 is an anti-missiling function. Missiling may occur upon an initial fracture of the cap receiving socket bottom panel circular score line 536, releasing stored pressure from within the resealable container 500. In a condition where the resealable container cap 560 retains a seal against the resealable container lid 510 and the resealable container lid 510 is breached, the pressure released from the resealable container 500 could potentially cause the resealable container cap 560 to become a projectile.
- the anti-missiling feature is created by a separation between the cap sealing ring 565 and the top surface of the cap receiving socket bottom wall 534 while the resealable container cap 560 remains in engagement with the resealable container lid 510 during the initial opening sequence of the resealable container 500, thus providing a pathway for release of pressure.
- the resealable container cap 560 can be designed in any of a variety of configurations.
- a resealable container cap 660 illustrated in FIGS. 79 through 81 and 86 through 90 , is one exemplary variant of the resealable container cap 560.
- the resealable container cap 660 includes features that are similar to those of the resealable container cap 560. Like features of the resealable container cap 660 and the resealable container cap 560 are numbered the same except preceded by the numeral '6'.
- the significant distinction of the resealable container cap 660 is the location of the concentric tamper indicator feature 628.
- the off-center tamper indicator feature 528 is formed in an off-centered location respective to a centroid of the resealable container cap 560.
- the concentric tamper indicator feature 628 is formed in a concentric about the centroid of the resealable container cap 660.
- the centered location of the concentric tamper indicator feature 628, and more specifically, the concentric tamper indicator operation element 629 of the concentric tamper indicator feature 628, is located to contact the resealable container lid upper surface reinforcement formation 518 of the resealable container lid 510, as illustrated in FIG. 80 .
- the cap receiving socket bottom panel circular score line 536 is designed to ensure that the cap receiving socket bottom panel tear panel 538 is off-centered to retain adequate support from the resealable container lid upper surface reinforcement formation 518 to the concentric tamper indicator operation element 629.
- the concentric tamper indicator operation element 629 contacts and is supported by the resealable container lid upper surface reinforcement formation 518, as shown in FIG. 80 .
- the pressure within the container maintains a rigidity of the cap receiving socket bottom wall 534, including the resealable container lid upper surface reinforcement formation 518.
- the pressure maintains a convex or bulged shape of the cap receiving socket bottom wall 534, including the resealable container lid upper surface reinforcement formation 518.
- the release of the pressure from within the interior of the container eliminates the support of the cap receiving socket bottom wall 534, including support of the resealable container lid upper surface reinforcement formation 518.
- Either condition allows the off-center tamper indicator feature 528 to "report" as previously described above, indicating the breach to the end user.
- the "report" can be a tactile report, an audible report, or any other known reporting method.
- the resealable container cap 560 can be assembled to the resealable container lid 510 either prior to assembly of the resealable container lid 510 onto the container cylindrical sidewall 102 or subsequent to the assembly of the resealable container lid 510 onto the container cylindrical sidewall 102.
- the resealable container cap 560 is assembled to the resealable container lid 510 prior to assembling the resealable container lid 510 onto the container cylindrical sidewall 102, as this configuration does not introduce limitations confronted in the process which excludes the resealable container cap 560.
- a seaming chuck tool 600 is inserted into an interior of the resealable container lid 510 defined by the interior surface of the seaming chuck wall 522.
- the resealable container lid 510 is seated upon the container seaming panel 106 and the container seaming wall 108 of the container cylindrical sidewall 102, as shown in FIGS. 82 , 83 .
- the container seaming wall 108 is a frustum shaped registration surface formed about an opening of the container cylindrical sidewall 102.
- the container seaming panel 106 is an outward extending radial flange formed about an opening of the container cylindrical sidewall 102.
- the seaming chuck tool 600 includes a seaming chuck tool conical driving wall 601, a seaming chuck tool planar driving surface 602, and a seaming chuck tool cap clearance cavity 603.
- the seaming chuck tool conical driving wall 601 has a male frustum shape that is in concentric/conical registration with the seaming chuck wall 522 of the resealable container lid 510 and the container seaming wall 108 of the container cylindrical sidewall 102, and is preferably designed to receive the compression forces applied by the first operation roller driving channel first operation roller driving channel 606 of the first operation roller 604 and the second / final operation roller driving channel 609 of the second / final operation roller 607.
- the seaming chuck tool planar driving surface 602 is preferably located about a lower edge of the seaming chuck tool conical driving wall 601. Alternatively, the seaming chuck tool planar driving surface 602 can be formed within a portion of the seaming chuck tool conical driving wall 601. The seaming chuck tool planar driving surface 602 is preferably designed to provide a compression force to the seaming chuck shoulder 524 without coming into contact with the cylindrical sidewall inverted countersink 570 of the resealable container cap 560.
- the seaming chuck tool cap clearance cavity 603 extends upward into the seaming chuck tool 600, wherein the seaming chuck tool cap clearance cavity 603 is designed to provide clearance for features extending upward from the resealable container cap planar traversing wall 564 of the resealable container cap 560, such as a pair of resealable container cap grip elements 574.
- the cylindrical sidewall inverted countersink 570 of the resealable container cap 560 is preferably designed and positioned relative to the seaming chuck shoulder 524 so that the cylindrical sidewall inverted countersink 570 does not come into contact with any part of the seaming chuck tool 600 during the seaming process.
- the seaming chuck tool conical driving wall 601 and the seaming chuck tool planar driving surface 602 apply a compression force upon the seaming chuck wall 522 and the seaming chuck shoulder 524 of the resealable container lid 510 to ensure a bottom surface of the seaming panel 520 is properly seated against an upper surface of the container seaming panel 106.
- the first operation roller driving channel first operation roller driving channel 606 is formed as a semi-circular groove within a cylindrical sidewall of the first operation roller 604.
- the first operation roller 604 rotates about a first operation roller rotational axis 605 and the seaming chuck tool 600 rotates the container cylindrical sidewall 102 and the associated resealable container lid 510 against the first operation roller driving channel first operation roller driving channel 606 of the first operation roller 604.
- first operation roller driving channel first operation roller driving channel 606 The contact between the first operation roller driving channel first operation roller driving channel 606 and the seaming panel 520 in conjunction with the resulting forces rolls the combination of the seaming panel 520 and the container seaming panel 106 together.
- a second / final operation roller 607 employing a second / final operation roller driving channel 609 in a similar manner to the first operation roller driving channel first operation roller driving channel 606 of the first operation roller 604 compresses the rolled formation into a compressed formation, as shown in FIG. 85 .
- the second / final operation roller driving channel 609 is formed as an oblong, rectangular groove within a cylindrical sidewall of the second / final operation roller 607.
- the second / final operation roller 607 rotates about a second (final) operation roller spin axis 608 and the seaming chuck tool 600 rotates the container cylindrical sidewall 102 and the associated resealable container lid 510 against the second / final operation roller driving channel 609 of the second / final operation roller 607.
- the contact between the second / final operation roller driving channel 609 and the rolled version of the seaming panel 520 in conjunction with the resulting forces compresses the combination of the seaming panel 520 and the container seaming panel 106 together.
- the compressed shape creates a sealed seam between the seaming panel 520 and the container seaming panel 106.
- the completed container assembly is referred to as a resealable container 500 and the completed seam is referred to as a container body and lid assembly seam 509, as shown in FIG. 85 .
- the resealable container 500 is subjected to a process referred to a retort, where the contents of the resealable container 500 are heated.
- the heat increases an internal pressure within the resealable container 500.
- the increased pressure deforms the resealable container lid 510 of the resealable container 500. More specifically, because of the shape of the features of the resealable container 500, the increased pressure deforms the cap receiving socket bottom wall 534 of the resealable container lid 510 upward into a domed or bulged shape as indicated by the upward directing arrow in FIGS.
- FIG. 86 A magnified view of the peripheral countersink 526, illustrated in FIG.
- the peripheral countersink 526 is formed having a outer peripheral countersink wall pre-retort geometry 610 on an outer, distal region and a inner peripheral countersink wall pre-retort geometry 612 on an inner, proximal region.
- the cap receiving socket bottom wall 534 is referred to as a cap receiving socket bottom wall post-retort geometry 624.
- the outer peripheral countersink wall pre-retort geometry 610 is formed along an outer peripheral countersink wall pre-retort geometry angle delineator 611.
- the inner peripheral countersink wall pre-retort geometry 612 is formed along an inner peripheral countersink wall pre-retort geometry angle delineator 613.
- the cap receiving socket bottom wall post-retort geometry 624 is formed along a cap receiving socket bottom wall pre-retort geometry angle delineator 615.
- the outer peripheral countersink wall pre-retort geometry 610 and the inner peripheral countersink wall pre-retort geometry 612 are generally vertically oriented.
- the cap receiving socket bottom wall pre-retort geometry 614 is generally planar and substantially horizontally oriented.
- the outer peripheral countersink wall pre-retort geometry 610 is reshaped into a outer peripheral countersink wall post-retort geometry 620 on the outer, distal region and the inner peripheral countersink wall pre-retort geometry 612 is reshaped into a inner peripheral countersink wall post-retort geometry 622 on the inner, proximal region of the peripheral countersink 526.
- the cap receiving socket bottom wall pre-retort geometry 614 is reshaped into a cap receiving socket bottom wall post-retort geometry 624.
- the outer peripheral countersink wall post-retort geometry 620 is formed along an outer peripheral countersink wall post-retort geometry angle delineator 621.
- the inner peripheral countersink wall post-retort geometry 622 is formed along an inner peripheral countersink wall post-retort geometry angle delineator 623.
- the cap receiving socket bottom wall post-retort geometry 624 is formed along a cap receiving socket bottom wall post-retort geometry angle delineator 625.
- the cap receiving socket bottom wall pre-retort geometry 614 transitions from a generally planar shape to a convex or bulged shape, identified as a cap receiving socket bottom wall post-retort geometry 624.
- This geometric condition reduces the diameter of the peripheral edge of the cap receiving socket bottom wall 534 (cap receiving socket bottom wall pre-retort geometry 614). This reduction in the diameter of the peripheral edge of the cap receiving socket bottom wall 534 draws the upper edge of the inner peripheral countersink wall pre-retort geometry 612 inward, angling the inner peripheral countersink wall pre-retort geometry 612 respectively, which is subsequently referred to as a inner peripheral countersink wall post-retort geometry 622.
- the reshaping of the inner peripheral countersink wall pre-retort geometry 612 to the inner peripheral countersink wall post-retort geometry 622 pulls the peripheral countersink 526 inward, impacting the lower edge of the cap receiving socket cylindrical sidewall 532.
- the resulting motion draws the lower edge of the outer peripheral countersink wall pre-retort geometry 610 inward, angling the outer peripheral countersink wall pre-retort geometry 610 respectively, which is subsequently referred to as an outer peripheral countersink wall post-retort geometry 620.
- the reshaped assembly segments 620, 622, 624 permanently retain a portion of the reshaping undergone during the retort process.
- the design of the resealable container cap 660 provides a flexible transition between the resealable container cap cylindrical exterior sidewall 662 and resealable container cap cylindrical interior sidewall 663, which accommodates a reshaping of the resealable container cap planar traversing surface 664 when the resealable container cap 660 is assembled onto the outer peripheral countersink wall pre-retort geometry 610.
- This reshaping results from a force applied to the resealable container cap planar traversing surface 664 by the cap receiving socket bottom wall 534 on the resealable container lid 510 during the retort process.
- a separation between the resealable container cap planar traversing surface 664 and cap receiving socket bottom wall 534 may be maintained by the off-center tamper indicator operation element 529 being in mechanical contact with the upper surface of the resealable container lid upper surface reinforcement formation 518, maintaining the relative separation between the resealable container cap planar traversing surface 664 and the cap receiving socket bottom wall 534 during the retort process in order to prevent the offset projecting incisor 668 from prematurely placing a fracturing forcing upon the cap receiving socket bottom panel circular score line 536.
- the reshaping of the cap receiving socket cylindrical sidewall 532 during the retort process more specifically, the outer peripheral countersink wall pre-retort geometry 610, impinges cam tracks 552, 554, 556 into the respective cam followers 581, 582, 583, retaining the assembly of the resealable container cap 660 onto the resealable container lid 510 during the maximum deformation during the retort process.
- the design of the resealable container cap 660 is adapted to accommodate the changes in shape of the peripheral countersink 526 of the resealable container lid 510 during and subsequent to the retort process.
- the end result enables rotational motion of the resealable container cap cylindrical exterior sidewall 662 within the peripheral countersink 526 by the consumer after completion of the retort process. This avoids any binding between the cam followers 581, 582, 583 within the peripheral countersink 526, while retaining the cam followers 581, 582, 583 against the mating surface of the respective cam tracks 551, 553, 555.
- the deformation of the cap receiving socket cylindrical sidewall 532 resulting from the retort process is adapted to enhance the engagement between the cam followers 581, 582, 583 and the mating surface of the respective cam tracks 551, 553, 555, as the deformation decreases the diameter of the lower portion of the 526.
- the resulting post-retort shape is shown in a cross sectioned view of the resealable container 500, as presented in FIG. 89 .
- the resealable container 500 can include features enabling nesting between assemblies 500, as shown in FIG. 90 .
- a container closed bottom wall 504 of the resealable container 500 includes a clearance to accommodate upward extending features, such as the pair of resealable container cap grip elements 674.
- a countersink or other feature can be formed within the container closed bottom wall 504, wherein the countersink is shaped and sized to nest within an interior of the container body and lid assembly seam 509 of the seaming chuck tool 600.
- the resealable container lid 510 is also open to variations in the design.
- a resealable container lid 710 shown in FIGS. 91 through 94 , introduces a variation in the layout of the cap receiving socket bottom panel circular score line 736 compared to the layout of the cap receiving socket bottom panel circular score line 536 of the resealable container lid 510.
- the resealable container lid 710 includes features that are similar to those of the resealable container lid 510.
- Like features of the resealable container lid 710 and the resealable container lid 510 are numbered the same except preceded by the numeral '7'.
- the cap receiving socket bottom panel circular score line 536 is routed through each of the opposing sidewalls of the incisor pathway channel 517 and across a bottom surface of the incisor pathway channel 517.
- the cap receiving socket bottom panel circular score line 736 is routed passing across an upper tangential edge of the associated end (identified as an incisor channel to tear panel surface transition 792) of the incisor pathway channel 717, as best shown in FIG. 93 .
- the score line fracture thinned initiation region 746 would be formed extending inward from an exterior or exposed surface of the resealable container lid upper surface reinforcement formation 718, down an end wall on the incisor pathway channel 717 (essentially, the incisor channel to tear panel surface transition 792).
- a score line thinned region seal reinforcement 747 is preferably applied to an opposite or interior surface of the resealable container lid upper surface reinforcement formation 718, more specifically, about the region of the score line fracture thinned initiation region 746 routed passing across an upper tangential edge of the associated end (incisor channel to tear panel surface transition 792) of the incisor pathway channel 717, as shown in the underside views presented in FIGS. 92 and 94 .
- the score line thinned region seal reinforcement 747 can be of the same material used to form a cap sealing ring 565 to optimize fabrication steps and costs.
- the score line thinned region seal reinforcement 747 retains a seal should the score line fracture thinned initiation region 746 fracture prematurely.
- the score line fracture thinned initiation region 746 can be configured to cut completely though the resealable container lid 510 material substrate, relying on the score line thinned region seal reinforcement 747 to maintain a sealed container.
- the cap receiving socket bottom panel circular score line 536, 736 is commonly created using a standard single step forming process.
- a resealable container lid 810 shown in FIGS. 95 through 105 , introduces a multi-step process for forming a cap receiving socket bottom panel circular score line 836.
- the resealable container lid 810 includes features that are similar to those of the resealable container lid 510, 710. Like features of the resealable container lid 810 and the resealable container lid 510, 710 are numbered the same except preceded by the numeral '8', unless otherwise stated.
- the multi-step process for forming the cap receiving socket bottom panel circular score line 836 employs a first incisor pathway index formation 894 and an second incisor pathway index formation 896.
- the first incisor pathway index formation 894 is located on a first end of an incisor pathway channel 817, wherein the first end includes an incisor channel to tear panel surface transition 892.
- the second incisor pathway index formation 896 is formed at a second end of the incisor pathway channel 817, which is preferably located proximate a tear panel hinge 839.
- the first incisor pathway index formation 894 and the second incisor pathway index formation 896 are formed using a more repeatable and accurate forming process than the process forming the ends of the incisor pathway channel 817. Additionally, the geometric shape of the indexing features 894, 896 are such to provide more accurate indexing registration than the shape of the ends of the incisor pathway channel incisor pathway channel 817, and to provide a more accurate geometric shape to form the cap receiving socket bottom panel circular score line 836 and respective features.
- a lid bottom score line thinned formation region 895, introduced in FIG. 96 can be formed in an opposite or interior surface of the first incisor pathway index formation 894, more specifically about the region of the score line fracture thinned initiation region 846 of the cap receiving socket bottom panel circular score line 836.
- FIGS. 97 through 105 The multi-step process for forming a cap receiving socket bottom panel circular score line 836 is demonstrated in a series of illustrations presented in FIGS. 97 through 105 . Since the scoring process thins the material of the resealable container lid 810, the majority of the features of the resealable container lid 810 are initially created as shown in FIG. 97 . This includes the incisor pathway channel 817. The indexing features 894, 896 are subsequently formed at the respective ends of the incisor pathway channel 817, as shown in FIG. 98 , using a lid alignment feature anvil 910A and a lid alignment feature punch tool 960A, introduced in FIG. 101 .
- the lid alignment feature punch tool 960A includes a first incisor pathway index formation punch 994 and a second incisor pathway index formation punch 996 extending downward from a lid alignment feature punch tool bottom surface 964 of a lid alignment feature punch tool body 962.
- the lid alignment feature anvil 910A includes features formed within a cap receiving socket bottom wall anvil 934 of a cap receiving socket cylindrical anvil body 932 to adequately support the resealable container lid 810.
- a resealable container lid upper surface reinforcement formation anvil 918 is recessed into the cap receiving socket bottom wall anvil 934 to accommodate the resealable container lid upper surface reinforcement formation 818.
- a socket bottom wall to surface reinforcement formation transition anvil 941 provides a transition between the cap receiving socket bottom wall anvil 934 and the resealable container lid upper surface reinforcement formation anvil 918.
- An incisor pathway channel anvil 917 is recessed into the resealable container lid upper surface reinforcement formation anvil 918 to accommodate the incisor pathway channel 817.
- the shapes of the resealable container lid upper surface reinforcement formation anvil 918 and the incisor pathway channel anvil 917 are used as initial registration or alignment features between the partially completed resealable container lid 810 and the lid alignment feature anvil 910A.
- a first incisor pathway index formation anvil 993 and a second incisor pathway index formation anvil 997 are formed at ends of the incisor pathway channel anvil 917 for receiving material being deformed by the first incisor pathway index formation punch 994 and the second incisor pathway index formation punch 996, respectively.
- a gap between the first incisor pathway index formation punch 994 and the first incisor pathway index formation anvil 993 is substantially the same as a thickness of the material of the first incisor pathway index formation 894.
- a gap between the second incisor pathway index formation punch 996 and the second incisor pathway index formation anvil 997 is substantially the same as a thickness of the material of the second incisor pathway index formation 896.
- the first incisor pathway index formation punch 994 and the second incisor pathway index formation punch 996 are used to maintain alignment between the strikes of the progressive stations of the first score line segment punch tool 960B and the second score line segment punch tool 960C.
- a first score line segment punch tool 960B is similar to the lid alignment feature punch tool 960A, with the introduction of a first score line formation segment punches 933.
- the first score line formation segment punches 933 is divided into two segments, each segment extends between a respective first score line formation segment punch ends ready for overlap 938 and tear panel hinge formation punch area 939.
- the resealable container lid 810 would be seated within a subsequent lid alignment feature anvil 910A in the manufacturing process, employing the registration features 993, 997 on the lid alignment feature anvil 910A and respective registration features 894, 896 on the resealable container lid 810 to ensure accurate alignment.
- the first score line segment punch tool 960B would then be employed to create in at least one first score line formation segments 833 as shown in FIG. 99 .
- a second score line segment punch tool 960C is similar to the lid alignment feature punch tool 960A, with the introduction of a score line fracture thinned initiation region punch 946 extending between two score line segment overlapping region punches 947.
- Each score line segment overlapping region punches 947 is located to align or overlap with the respective location of the first score line formation segment punch ends ready for overlap 938 of the lid alignment feature with lid bottom score line thinned formation anvil 910B. This creates one continuous score line 836.
- the resealable container lid 810 would remain seated within the lid bottom score line thinned formation anvil 910B and the second score line segment punch tool 960C would be employed to create a score line fracture thinned initiation region 846 extending between each score line segment overlapping regions 847 as shown in FIG. 100 .
- the first incisor pathway index formation punch 994 and the second incisor pathway index formation punch 996 are used to maintain alignment between the strikes of the first score line segment punch tool 960B and the second score line segment punch tool 960C.
- the score line fracture thinned initiation region punch 946 can include a slight convex dome, as best shown in a magnified view illustrated in FIG. 105 (noting the lid alignment feature punch tool 960 and the lid bottom score line thinned formation anvil 910B are separated from the resealable container lid 810 for clarity of the features).
- the lid bottom score line thinned formation region anvil 995 can also include a slight convex dome, as best shown in a magnified view illustrated in FIG. 105 .
- These convex domes 946, 995 form concave depressions within opposite sides of the first incisor pathway index formation 894, more specifically forming a score line fracture thinned initiation region 846 on an upper surface of the first incisor pathway index formation 894 and a lid bottom score line thinned formation region 895 on the opposite, lower surface of the first incisor pathway index formation 894.
- the convex domes of the second score line segment punch tool 960C (or the complete score line segment punch tool 960D) and the lid bottom score line thinned formation anvil 910B are provided to direct a flow of the material outward along a planar direction of the material (perpendicular to the generally vertical axis of the press action).
- the cap receiving socket bottom panel circular score line 836 and its respective features can be formed using a single strike punch, such as a complete score line punch tool 960D working against the lid alignment feature with lid bottom score line thinned formation anvil 910B, illustrated in FIG. 104 .
- a resealable container lid 1010 shown in FIGS. 106 through 112 , introduces yet another variant of an opening configuration.
- the resealable container lid 1010 includes features that are similar to those of the resealable container lid 810. Like features of the resealable container lid 1010 and the resealable container lid 810 are numbered the same except preceded by the numeral '10', unless otherwise stated.
- the resealable container lid 1010 includes a cap receiving socket bottom panel circular score line 1036 having an initial fracturing portion 1046 formed within a first incisor pathway refined chamfer face 1094 at one end of the incisor pathway channel 1017, best shown in the magnified section of the illustration presented in FIG.
- the initial fracturing portion 1046 can be created having an angled trough or recess.
- the incisor pathway channel 1017 can be fabricated using a single punch process, or, preferably, a multi-step forming process.
- the exemplary ends of the incisor pathway channel 1017 are formed having a chamfered, linear end walls to enhance registration functions or the formation of a score line cap receiving socket bottom panel circular score line 1036 or at least one score line feature 1046, 1047.
- the initial fracturing portion of the cap receiving socket bottom panel circular score line 1036 is routed into the debossed region of the first incisor pathway refined chamfer face 1094 creating an overlapping region between the cap receiving socket bottom panel circular score line 1036 and the score line fracture thinned initiation region 1046, identified as a score line segment overlapping region 1047.
- the initial fracturing portion of the cap receiving socket bottom panel circular score line 1036 and the associated score line fracture thinned initiation region 1046 formed on an interior surface of the first incisor pathway refined chamfer face 1094 on the resealable container lid 1010.
- the resealable container lid 1010 introduces a pair of lid bottom score line hinge creases 1095 are formed on a bottom surface of the resealable container lid 1010 proximate the score line fracture thinned initiation region 1046, as shown in FIG. 107 , and preferably arranged flanking each of two vertical edges thereof.
- Each of the pair of lid bottom score line hinge creases 1095 is preferably arranged in a vertical orientation or tangential with the arch of the incisor pathway channel 1017.
- the offset projecting incisor 568 (not shown) would travel along the incisor pathway channel 1017 approaching the score line fracture thinned initiation region 1046 within the first incisor pathway refined chamfer face 1094.
- the offset projecting incisor 568 then contacts and applies an opening force onto the score line fracture thinned initiation region 1046, causing the score line fracture thinned initiation region 1046 to fracture.
- the fracturing of the score line fracture thinned initiation region 1046 reduces the strength of the region, enabling a reduced force to fracture the score line segment overlapping region 1047 and subsequently the cap receiving socket bottom panel circular score line 1036.
- the lid bottom score line hinge crease 1095 directs the material about the score line fracture thinned initiation region 1046 to fold outward, introducing a clearance for free passage of the offset projecting incisor 568 to exit the end of incisor pathway channel 1017 while continuing a downward force on the incisor channel to tear panel surface transition 1092 to further propagate fracturing of the cap receiving socket bottom panel circular score line 1036.
- a resealable container lid 1110 shown in FIGS. 113 through 126 , introduces a variant that retains the resealable container cap 1160 within the cap receiving socket of the resealable container lid 1110.
- the resealable container lid 1110 includes features that are similar to those of the resealable container lid 510. Like features of the resealable container lid 1110 and the resealable container lid 510 are numbered the same except preceded by the numeral '11' unless otherwise stated, wherein the variant of the container lid 510 is adapted to retain a resealable container cap 1160 and the resealable container lid 1110 as an assembly throughout the use thereof.
- the key distinction between the resealable container lid 1110 and the resealable container lid 510 is the formation of the cam tracks 1152, 1154, 1156, more specifically shown reflecting upon the first socket cap retaining cam track 1152 as an exemplary cam track, a cam track cam follower locking section 1152E, as best shown in FIG. 126 .
- the cam track cam follower locking section 1152E is routed downward compared to the cam track cam follower leader section 552E of FIG. 53 , which is routed upward.
- the resealable container cap 1160 includes additional features related to the primary intention of this variant, wherein the resealable container lid 1110 and the resealable container cap 1160 are designed to remain assembled to one another.
- a resealable container cap dispensing aperture 1161 is introduced through a resealable container cap planar traversing surface 1164 of the resealable container cap 1160.
- the resealable container cap dispensing aperture 1161 is located in rotational alignment with an opening defined by the cap receiving socket bottom panel circular score line 1136 of the resealable container lid 1110, as shown in FIGS. 122 and 123 .
- a tear panel conforming sealing gasket 1165 is carried by an underside of the resealable container cap planar traversing surface 1164.
- the tear panel conforming sealing gasket 1165 is located in rotational alignment with the opening defined by the cap receiving socket bottom panel circular score line 1136 of the resealable container lid 1110, but offset from the resealable container cap dispensing aperture 1161, as shown in FIG. 117 .
- the tear panel conforming sealing gasket 1165 can be of any suitable shape to adequately seal the opening defined by the cap receiving socket bottom panel circular score line 1136 of the resealable container lid 1110.
- the tear panel conforming sealing gasket 1165 is teardrop shaped to accommodate the shape of the dispensing aperture, more specifically, the region about the tear panel hinge 1139.
- the resealable container cap dispensing aperture 1161 enables access and dispensing of contents from within a breached resealable container lid 1110 of the resealable container 1100.
- the tear panel conforming sealing gasket 1165 seals the opened container after the cap receiving socket bottom panel circular score line 1136 has been fractured and the cap receiving socket bottom panel tear panel 1138 has been bent away from the resealable container lid upper surface reinforcement formation 1118.
- the resealable container cap 1160 is retained within a cap receiving socket of the resealable container lid 1110 by the shape of the cam tracks.
- the cam track assembly / locking detent 1152A limits the motion of the respective cam follower 1181 in a clockwise direction.
- the modification to the cam track cam follower locking section 1152E limits the motion of the respective cam follower 1181 in a counterclockwise direction.
- the same rotational limitations are provide by each can track 1152, 1154, 1156 and respective cam follower 1181, 1182, 1183.
- the cam follower 1181 is located at the cam track initial / resealed section 1152B segment of the first socket cap retaining cam track 1152.
- the remaining cam followers 1182, 1183 would be located at similar segments of the respective cam tracks 1154, 1156.
- This assembly configuration retains the resealable container cap 1160 in a fixed rotational position during shipping, distribution, sale, etc. until use.
- the consumer would rotate the resealable container cap 1160 in a counterclockwise motion causing the offset projecting incisor 1168 to fracture the cap receiving socket bottom panel circular score line 1136 in a manner similar to the offset projecting incisor 568 fracturing the cap receiving socket bottom panel circular score line 536 (previously described above).
- the resealable container cap 1160 continues to rotate, the resealable container cap dispensing aperture 1161 is positioned over the dispensing aperture defined by the fractured cap receiving socket bottom panel circular score line 1136, as shown in FIGS. 123 , 124 .
- the consumer When the consumer decides they are finished dispensing a desired volume of the contents from with the resealable container 1100, the consumer rotates the resealable container cap 1160 in a clockwise direction, aligning the tear panel conforming sealing gasket 1165 over the dispensing aperture defined by the fractured cap receiving socket bottom panel circular score line 1136, as shown in FIGS. 124 and 125 . Additional illustrations are included to adequately present details of the resealable container lid 1110 and the respective resealable container cap 1160 as well as the interactions with one another.
- All of the above configurations employ a counterclockwise rotation for fracturing the cap receiving socket bottom panel circular score line 536, 736, 836, 1036, 1136 of the respective resealable container lid 510, 710, 810, 1010, 1110.
- Each of these configurations are adapted to retain the respective resealable container cap 560, 660, 1160 within the cap receiving cavity of the respective resealable container lid 510, 710, 810, 1010, 1110 after the manufacturing process as well as the distribution and sales processes.
- a resealable container lid 1210 is adapted to receive a reusable or separately available version of a container cap, such as a container lid socket engaging opening tool 1260, as shown in FIGS. 127 through 135 .
- the resealable container lid 1210 detailed in FIGS. 127 through 129 , includes features that are similar to those of the resealable container lid 510.
- Like features of the resealable container lid 1210 and the resealable container lid 510 are numbered the same except preceded by the numeral '12'.
- the resealable container 1200 would be manufactured, distributed, and sold excluding the container lid socket engaging opening tool 1260, which would be a sealed version of the container shown in FIG. 134 .
- the cap receiving socket bottom panel circular score line 536 and the other respective opening features are oriented to accommodate a counterclockwise rotation of the resealable container cap 560 to fracture the cap receiving socket bottom panel circular score line 536 and open the cap receiving socket bottom panel tear panel 538 thereof.
- the cap receiving socket bottom panel clockwise opening circular score line 1236 and the other respective opening features are oriented to accommodate a clockwise rotation of the container lid socket engaging opening tool 1260 to fracture a cap receiving socket bottom panel clockwise opening circular score line 1236 and open a clockwise opening tear panel 1238 thereof.
- the cap receiving socket bottom panel clockwise opening circular score line 1236 and the other respective opening features are a mirror image of the cap receiving socket bottom panel circular score line 536 and the other respective opening features.
- the concept no longer requires the features to entrap the offset projecting incisor 568 within the incisor pathway channel 517 and just prior to the incisor channel to tear panel surface transition 592, as the container lid socket engaging opening tool 1260 is no longer pre-assembled to the resealable container lid 1210.
- One additional benefit of this configuration is that the container lid socket engaging opening tool 1260 can be axially symmetric, enabling assembly of the container lid socket engaging opening tool 1260 to the resealable container lid 1210 in any of three orientations.
- the exemplary embodiment mirrors the features of the container lid socket engaging opening tool 1260 in three 120 degree angular sections, it is understood that the resealable container lid 1210 and the container lid socket engaging opening tool 1260 can be design having any suitable number of like angular sections.
- the container lid socket engaging opening tool 1260 is a variant of the resealable container cap 560, and includes features that function similar to those of the resealable container cap 560. Like features of the container lid socket engaging opening tool 1260 and the resealable container cap 560 are numbered the same except preceded by the numeral '12', unless otherwise stated.
- the container lid socket engaging opening tool 1260 can be formed using any suitable manufacturing process.
- the exemplary container lid socket engaging opening tool 1260 is fabricated using a molding process.
- the container lid socket engaging opening tool 1260 includes a opening tool exterior sidewall 1262 carrying a plurality of like cam followers 1281 extending radially outward therefrom, being equidistantly spaced about a lower peripheral edge thereof.
- An opening tool container overlapping sidewall 1271 spatially circumscribes the opening tool exterior sidewall 1262 of the container lid socket engaging opening tool 1260 forming an opening tool container body and lid assembly seam cavity 1270 therebetween.
- the opening tool container body and lid assembly seam cavity 1270 is sized and shaped to fit over a container body and lid assembly seam 1209 of a resealable container 1200.
- a plurality of gripping features such as a opening tool grip elements 1274 and respective opening tool grip element force application surfaces 1275) are formed about the radial, exterior surface of the opening tool container overlapping sidewall 1271.
- a plurality of opening tool dispensing aperture 1261 is formed through the opening tool planar traversing surface 1264. Each opening tool dispensing aperture 1261 would be located to rotate into a position enabling dispensing of contents from within the resealable container 1200.
- a plurality of incisors 1268 extend axially downward from a sealing surface of the opening tool planar traversing surface 1264, the incisors 1268 being equidistantly spaced and equidistant from a rotational axis of the container lid socket engaging opening tool 1260. Any of the incisors 1268 can be used for initiating a fracture of the cap receiving socket bottom panel clockwise opening circular score line 1236.
- the container lid socket engaging opening tool 1260 would be assembled onto the resealable container lid 1210 by aligning each opening tool formed cam follower 1281 with each inter-cam relief section 1251, 1253, 1255 and slipping each opening tool formed cam follower 1281 beneath each cam track 1252, 1254, 1256, more specifically, engaging with the upward angled end, similar to the cam track cam follower leader section 552E previously described.
- the upward angled end of the respective cam track 1252, 1254, 1256 guide the respective opening tool formed cam follower 1281 into the generally horizontally arranged segment of the cam track 1252, 1254, 1256, similar to the cam track operating segment 552D.
- the consumer would continue to rotation the container lid socket engaging opening tool 1260 in a clockwise motion to fracture the cap receiving socket bottom panel clockwise opening circular score line 1236 at the incisor channel to tear panel surface transition 1292 and subsequently propagate the fracture of a cap receiving socket bottom panel clockwise opening circular score line 1236, while folding or bending a clockwise opening tear panel 1238 away from a resealable container lid upper surface reinforcement formation 1218 along a clockwise opening tear panel hinge 1239, as shown in FIG. 135 .
- the container lid socket engaging opening tool 1260 is rotated into a position aligning one opening tool dispensing aperture 1261 with the dispensing aperture created by the fractured cap receiving socket bottom panel clockwise opening circular score line 1236.
- the clockwise rotation of the container lid socket engaging opening tool 1260 is limited by a downward turn of each respective cam track 1252, 1254, 1256, similar to the cam track assembly / locking detent segment 552A previously introduced.
- the container lid socket engaging opening tool 1260 is removed by rotating the container lid socket engaging opening tool 1260 in a counterclockwise direction until each opening tool formed cam followers 1281 is placed into the respective inter-cam relief section 1251, 1253, 1255. Once each opening tool formed cam followers 1281 is placed into the respective inter-cam relief section 1251, 1253, 1255, the container lid socket engaging opening tool 1260 can be lifted from the cap receiving socket of the resealable container lid 1210. It is noted that the exemplary cap 1260 does not include features enabling resealing of the compromised or opened resealable container lid 1210.
- the container lid socket engaging opening tool 1260 can be modified to include a sealing feature. Alternatively, other caps can be employed to seal the compromised or opened resealable container lid 1210. In yet another configuration, the container lid socket engaging opening tool 1260 can be exclusive of the opening tool dispensing aperture 1261, simply providing an opening function.
- Previous variants include a seal between the cap sealing ring 565, located on a bottom surface of the resealable container cap planar traversing wall 564 of the resealable container cap 560 and a cap receiving socket bottom wall 534 of the resealable container lid 510.
- the seal can be provided between features of the vertical sidewall of the resealable container cap 560 and the resealable container lid 510. This variant is employed between a resealable container lid 1310 and a resealable container cap 1360, which are described in FIGS. 136 through 146 .
- the resealable container lid 1310 is a variant of the resealable container lid 510, and includes features that function similar to those of the resealable container lid 510. Like features of the resealable container lid 1310 and the resealable container lid 510 are numbered the same except preceded by the numeral '13'.
- the resealable container cap 1360 is a variant of the resealable container cap 560, and includes features that function similar to those of the resealable container cap 560. Like features of the resealable container cap 1360 and the resealable container cap 560 are numbered the same except preceded by the numeral '13'.
- the resealable container lid 1310 includes a frustum shaped interior surface of a frustum shaped cap seal engaging annular surface 1340, as best shown in a section view illustrated in FIG. 143 .
- the frustum shaped cap seal engaging annular surface 1340 extends axially between a cap receiving socket cylindrical sidewall 1332 and a seaming chuck shoulder 1324 of the resealable container lid 1310.
- the frustum shaped cap seal engaging annular surface 1340 is located between the functional cam region of the resealable container lid 1310 and the seaming panel elements, including the seaming chuck wall 1322 and the seaming panel 1320.
- the resealable container cap 1360 includes a frustum shaped exterior surface of a frustum shaped cap sealing ring surface 1367, as best shown in a section view illustrated in FIG. 143 .
- the frustum shaped cap sealing ring surface 1367 extends axially between a resealable container cap cylindrical exterior sidewall 1362 and a cylindrical sidewall inverted countersink 1370 of the frustum shaped cap sealing ring surface 1367.
- the frustum shaped cap sealing ring surface 1367 is located between the region containing the functional cam followers 1381, 1382, 1383 of the resealable container cap 1360 and the cylindrical sidewall inverted countersink 1370.
- a frustum shaped cap sealing ring 1365 is applied to the exterior surface of the frustum shaped cap sealing ring surface 1367.
- the frustum shaped cap sealing ring 1365 can be of any suitable material, such as those previously suggested for the cap sealing ring 565.
- the frustum shaped cap sealing ring 1365 seals against the interior surface of the frustum shaped cap seal engaging annular surface 1340, as best shown in FIGS. 144 , 146 .
- the spatially arranged cam followers 1381, 1382, 1383, interacting with the respective cam track 1352, 1354, 1356 generally evenly distribute a compression load between the frustum shaped cap sealing ring surface 1367 and the frustum shaped cap seal engaging annular surface 1340.
- a concentric tamper indicator operation element 1329 on a concentric tamper indicator feature 1328 is centrally located.
- the concentric tamper indicator operation element 1329 is supported by an upper surface of the resealable container lid upper surface reinforcement formation 1318.
- the resealable container lid upper surface reinforcement formation 1318 is supported by the pressure within the sealed interior of the container. Once the seal is compromised, the pressure is released, thus eliminating any support to and from the resealable container lid upper surface reinforcement formation 1318. Without the support, the resealable container lid upper surface reinforcement formation 1318 can flex axially, thus allowing the concentric tamper indicator feature 1328 to flex accordingly and report the breach of the container.
- a resealable container lid 1410 and a respective resealable container cap 1460 are adapted to support a solid composition (i.e. food) storage and distribution container, wherein the resealable container lid 1410 is described in FIGS. 147 through 158 .
- resealable container lid 1410 can be used for smaller and larger food products, such as those mentioned above an additionally including chips, pretzels, potato sticks, larger nuts, larger spices, candies, span, thicker soups, spreadables, peanut butter, jelly, larger condiments (sauerkraut, relish), and the like.
- the resealable container lid 1410 is a variant of the resealable container lid 510, and includes features that function similar to those of the resealable container lid 510. Like features of the resealable container lid 1410 and the resealable container lid 510 are numbered the same except preceded by the numeral ' 14'.
- the resealable container cap 1460 is a variant of the resealable container cap 560, and includes features that function similar to those of the resealable container cap 560. Like features of the resealable container cap 1460 and the resealable container cap 560 are numbered the same except preceded by the numeral '14'.
- the resealable container lid 1410 is provided with a removable sealed panel (not shown) spanning across a lower end thereof, or as a ring shaped element having a container lid dispensing aperture 1461.
- a removable sealed panel (not shown) spanning across a lower end thereof, or as a ring shaped element having a container lid dispensing aperture 1461.
- the peripheral edge of the sealing panel can be defined by a score line.
- the removable seal can be opened and removed using any suitable element, such as a pull tab.
- the removable panel may also be of a plastic or metal foil material bonded to the lower end of the resealable container lid 1410.
- a lower edge of the resealable container cap cylindrical exterior sidewall 1462 can be formed, introducing a peripheral bottom edge fold 1426 as a fold to reinforce the lower edge of the resealable container cap cylindrical exterior sidewall 1462 of the resealable container lid 1410 and to minimize any risk of injury.
- the resealable container lid 1410 is assembled to the container cylindrical sidewall 102 using the same methods previously described.
- the exclusion of the cap receiving socket bottom wall 534 in the resealable container lid 1410 suggests modifications to the pneumatically operated concentric tamper indicator feature 1428.
- the pneumatically operated concentric tamper indicator feature 1428 excludes a tamper indicator operation element, as the resealable container lid 1410 excludes a cap receiving socket bottom wall, rendering the tamper indicator operation element as being of no use.
- the pneumatically operated concentric tamper indicator feature 1428 obtains support directly from pressure differential within the sealed contents section of the container.
- the container lid cap can include a grip of any suitable configuration.
- the container lid socket engaging opening tool 1260 includes a grip element formed on a radially exterior surface of the opening tool container overlapping sidewall 1271.
- a resealable container cap 1560, detailed in FIGS. 159 and 160 introduces a debossed grip configuration resealable container cap grip element cavity 1574 extending inward into an interior region of the resealable container cap 1560.
- the resealable container cap 1560 includes features having similar function to those of the resealable container cap 1360. Like features of the resealable container cap 1560 and the resealable container cap 1360 are numbered the same except preceded by the numeral '15', unless otherwise stated. Since the sealing features (frustum shaped cap sealing ring 1565 carried by a frustum shaped cap sealing ring surface 1567) are employed to provide a seal, a lower surface of the resealable container cap planar traversing surface 1564 is no longer mandated to contact the cap receiving socket bottom wall 1334, thus eliminating design constraints imposed by the cap sealing ring 565 of the resealable container cap 560.
- the resealable container cap 1560 can include a resealable container cap cylindrical upper exterior sidewall 1563, providing a transition between an upper edge of the resealable container cap cylindrical lower exterior sidewall 1562 and the outer edge of the resealable container cap planar traversing surface 1564.
- the height of the resealable container cap 1560 would preferably be designed to retain an uppermost surface thereof at or below an uppermost edge of the seaming panel 1320, as best shown in FIG. 165 .
- the resealable container cap cylindrical upper exterior sidewall 1563 and resealable container cap planar traversing surface 1564 are preferably designed to nest within the cavity of the seaming chuck tool cap clearance cavity 603 on the seaming chuck tool 600 during the seaming process of the resealable container lid 1310 to the container body.
- the resealable container cap grip element cavity 1574 can be formed as a deboss, extending inward from the top surface of the resealable container cap planar traversing surface 1564.
- the resealable container cap grip element cavity 1574 includes a cap grip element cavity force application surface 1575, functioning the same as the cap grip element force application surface 575 (previously described), while being a tubular interior surface thereof.
- An upper transition between the cap grip element cavity force application surface 1575 and the resealable container cap planar traversing surface 1564 is chamfered, creating a comfort region for the consumer during the opening and resealing processes.
- a depth of the resealable container cap grip element cavity 1574 would place a bottom surface of the resealable container cap grip element cavity 1574 at a desired vertical position respective to an assembly reference feature, such as the cam followers 1581, 1582, 1583, a bottom edge of the resealable container cap cylindrical lower exterior sidewall 1562, and the like.
- a bottom surface of a cap grip bottom wall incisor deboss panel 1566 and a depth of a respective cap grip bottom wall projecting incisor 1568 adequately to properly interact with the opening features of the resealable container lid 1310 or other respective container lid, as best shown in FIGS. 165 , 167 .
- Assembly of the resealable container cap 1560 to the resealable container lid 1310 would be the same as previously described. The significant difference is the consumer would insert their fingers and/or a tool into the resealable container cap grip element cavity 1574, resting against the cap grip element cavity force application surface 1575 to apply a torsional force thereto. Obviously, the resealable container cap grip element cavity 1574 would be designed to accommodate the consumer's fingers and/or an opening assistance tool.
- a resealable container cap 1660 introduces another embossed grip configuration resealable container cap grip element 1674 extending upward from the resealable container cap planar traversing surface 1664 of the resealable container cap 1660.
- the resealable container cap 1660 includes features having similar function to those of the resealable container cap 560. Like features of the resealable container cap 1660 and the resealable container cap 560 are numbered the same except preceded by the numeral '16'.
- the resealable container cap 560 includes a resealable container cap grip element 574 having a pinched shape to define the cap grip element force application surfaces 575.
- the resealable container cap grip element 1674 is formed having a more cylindrical shaped cap grip element force application surface 1675 terminating with a cap grip element grip enhancing feature 1676 circumscribing a distal edge of the cap grip element force application surface 1675 or a peripheral edge of a top panel thereof. It is recognized that the cap grip element force application surface 1675 and cap grip element grip enhancing feature 1676 as well as the entire resealable container cap grip element 1674 can be of any suitable shape.
- the preferred shape of the cap grip element force application surface 1675 is cylindrical for manufacturing and reliability purposes.
- the off-center tamper indicator feature 1628 can be located off-centered (as shown) or concentric with a resealable container cap cylindrical interior sidewall 1663 of the resealable container cap 1660.
- the resealable container cap 1660 would be assembled into any suitable container lid, such as the exemplary resealable container lid 510 shown in FIG. 170 .
- the resealable container cap grip element 1674 is of a height where an upper surface of each resealable container cap grip element 1674 is at or lower than a respective surface of the seaming panel 520 when the resealable container cap 1660 is assembled within a cap receiving socket of the resealable container lid 510.
- the consumer can use their fingers to apply an opening force directly to each cap grip element force application surface 1675 of each resealable container cap grip element 1674.
- the consumer can employ a resealable container cap opening assistance tool 1760, introduced in FIGS. 171 through 173 , to aid in rotating the resealable container cap 1660 to fracture the cap receiving socket bottom panel circular score line 536 of the resealable container lid 510, separating and folding the cap receiving socket bottom panel tear panel 538 away from the resealable container lid upper surface reinforcement formation 518.
- the resealable container cap opening assistance tool 1760 is preferably fabricated of a pliant material using a molding process.
- the resealable container cap opening assistance tool 1760 includes a opening assistance tool upper cylindrical sidewall 1761 having a plurality of spatially arranged gripping sections (comprising opening assistance tool grip elements 1784, each opening assistance tool grip element 1784 extending outward from a peripheral surface of the opening assistance tool upper cylindrical sidewall 1761 by a pair of opening assistance tool force application surfaces 1785.
- An opening assistance tool lower cylindrical sidewall 1763 extends downward from a bottom surface of the opening assistance tool upper cylindrical sidewall 1761.
- the opening assistance tool lower cylindrical sidewall 1763 is sized and shaped to fit within the cap receiving cavity of the resealable container lid 510, more specifically to fit within the cavity defined by the resealable container cap cylindrical interior sidewall 1663, as best shown in FIGS. 174 , 176 .
- the peripheral edge of the opening assistance tool upper cylindrical sidewall 1761 is sized to extend outward from a peripheral edge of the container to avoid any interference of the features of the container and associated container lid resealable container cap 560 during use of the resealable container cap opening assistance tool 1760.
- At least one opening assistance tool cap grip receiving cavity 1774 is formed as a cavity extending inward from an opening assistance tool bottom wall 1764 of the opening assistance tool lower cylindrical sidewall 1763.
- Each of the at least one opening assistance tool cap grip receiving cavity 1774 includes a opening assistance tool grip enhancing feature 1776 circumscribing an interior edge of a respective opening assistance tool force application surface 1775.
- the opening assistance tool force application surface 1775 and associated opening assistance tool grip enhancing feature 1776 are of a size and shape to compliment the respective resealable container cap grip element 1674, more specifically, the cap grip element force application surface 1675 and the cap grip element grip enhancing feature 1676 of the resealable container cap grip element 1674, as best shown in FIGS. 174 , 176 .
- the quantity and location of each of the at least one opening assistance tool cap grip receiving cavity 1774 are determined by the quantity and location of each of the at least one resealable container cap grip element 1674.
- the pliant material of the resealable container cap opening assistance tool 1760 enables the opening assistance tool cap grip receiving cavity 1774 to deform during an assembly step, compensating and allowing the enlarged cap grip element grip enhancing feature 1676 to pass through the slightly narrowed opening assistance tool force application surface 1775 of the opening assistance tool cap grip receiving cavity 1774, until the cap grip element grip enhancing feature 1676 is seated into the opening assistance tool grip enhancing feature 1776.
- the engagement between the opening assistance tool grip enhancing feature 1776 and the cap grip element grip enhancing feature 1676 enables the user to remove the resealable container cap 1660 from the cap receiving socket of the resealable container lid 510 by simply lifting the resealable container cap opening assistance tool 1760 away from the resealable container lid 510.
- the engagement between the opening assistance tool grip enhancing feature 1776 and the cap grip element grip enhancing feature 1676 retains the assembly of the resealable container cap 1660 to the resealable container cap opening assistance tool 1760.
- the resealable container cap opening assistance tool 1760 can be fabricated of a more rigid, molded material. When manufactured using the more rigid material, the opening assistance tool force application surface 1775 would be the same shape and size as the opening assistance tool grip enhancing feature 1776, enabling insertion of each resealable container cap grip element 1674 into the respective opening assistance tool cap grip receiving cavity 1774.
- opening assistance tool cap grip receiving cavities 1774 of the resealable container cap opening assistance tool 1760 can be incorporated into any of the other cavity shaped container lid caps 160, 260, 360, 460, 560, 660, 1160, 1360, 1460.
- the container lid caps 560, 660, 1160, 1260, 1360, 1460 can be replaced by other container lid caps having more specialized features and related functions, as shown in the various configurations presented in FIGS. 177 through 186 .
- These specialized caps can be included with the container, sold separately, or both. The specialized caps give the consumer the ability to adapt any container into a specialized application.
- a first exemplary specialized cap is a drinking straw socket accessory 1800, detailed in FIGS. 177 through 181 .
- the drinking straw socket accessory 1800 introduces a mason jar-like cap assembly design.
- the assembly design employs two elements, a stationary / axially operable component 1810, which remains in a fixed rotational position, and a socket mating rotary actuator 1860, which rotates, assembling the drinking straw socket accessory 1800 to a respective container lid, such as the resealable container lid 510 or any other suitable container lid.
- the exemplary stationary / axially operable component 1810 includes a cylindrical vertical wall circumscribing a peripheral edge of a socket accessory traversing wall 1834.
- the cylindrical vertical wall 1832 can extend downward from a bottom surface of the socket accessory traversing wall 1834.
- a socket mating rotary actuator helical groove track cam follower 1880 is incorporated into the exterior surface of the cylindrical vertical wall 1832 of the stationary / axially operable component 1810.
- a socket accessory sealing ring 1865 is carried about a bottom edge of the cylindrical vertical wall 1832.
- a socket accessory off-center tear panel plug 1838 extends downward from an underside of the socket accessory traversing wall 1834. The socket accessory off-center tear panel plug 1838 is adapted to engage with the dispensing aperture formed within the resealable container lid upper surface reinforcement formation 518 when the cap receiving socket bottom panel tear panel 538 is folded into an opened configuration.
- the socket accessory off-center tear panel plug 1838 would preferably be shaped and sized to substantially or completely seal the dispensing aperture formed within the resealable container lid upper surface reinforcement formation 518. This would avoid leakage of the contained beverage to an area between the socket accessory off-center tear panel plug 1838 and the socket accessory sealing ring 1865.
- the socket accessory off-center tear panel plug 1838 is adapted to receive and retain a drinking straw sealing gasket 1847.
- the drinking straw sealing gasket 1847 is designed to receive and retain a drinking straw 1820.
- the drinking straw sealing gasket 1847 is preferably fabricated of a pliant material, such as rubber, nylon, or any other material that would be suitable for insertion, retention, and sealing about the outer surface of the drinking straw 1820.
- the drinking straw 1820 can be any known design, including a straight configuration, a formed configuration, include bending feature(s), and the like.
- the drinking straw 1820 can be referenced by a drinking straw exposed upper area 1822 extending from an exterior of the drinking straw socket accessory 1800 and terminating at a drinking straw upper end 1823, and a drinking straw unexposed lower area 1824 extending from an interior of the drinking straw socket accessory 1800 and terminating at a drinking straw lower end 1825.
- the drinking straw 1820 would have a tubular body providing a drinking straw dispensing aperture 1828 therethrough. It would be preferred that the drinking straw 1820 is of a length enabling the drinking straw lower end 1825 to be positioned proximate the container closed bottom wall 504 of the resealable container 500.
- the socket mating rotary actuator 1860 is designed having socket accessory cylindrical exterior sidewall 1862 formed in a ring or open annular shape.
- the exemplary embodiment introduces a socket accessory container body and lid assembly seam cavity 1870 formed extending inward from a lower edge of the socket accessory cylindrical exterior sidewall 1862 and a lower edge of a socket accessory container overlapping sidewall 1871.
- the socket accessory cylindrical exterior sidewall 1862 includes at least one feature (such as cam followers 1881, 1882, 1883 best shown in FIG. 178 ) designed to engage with the cam tracks 552, 554, 556 of the resealable container cap 560 or any other like feature of any respective container lid.
- a socket mating rotary actuator groove track 1850 is incorporated into the interior surface of the cylindrical vertical wall 1871 of the socket mating rotary actuator 1860.
- a plurality of gripping features, such as a socket accessory grip elements 1874 and respective socket accessory force application surfaces 1875 are formed about the radial, exterior surface of the exterior vertical wall 1871. It would be appreciated by those skilled in the art that the configuration of the socket mating rotary actuator 1860 can vary significantly, while accomplishing the same function. Therefore, the invention should not be limited by the exemplary configurations as illustrated and described herein.
- the socket mating rotary actuator groove track 1850 and the socket mating rotary actuator helical groove track cam follower 1880 are designed to mate with one another enabling a rotational relationship with one another, while maintaining an axial relationship with one another.
- the consumer During assembly of the drinking straw socket accessory 1800 onto the container lid resealable container lid 510, the consumer would align a bottom of the socket accessory off-center tear panel plug 1838 with the dispensing aperture of the resealable container lid 510. This will retain the stationary / axially operable component 1810 in a rotationally fixed position, as shown in FIG. 180 .
- the socket mating rotary actuator 1860 is rotated clockwise, engaging the cam followers 1881, 1882, 1883 with the respective cam tracks 552, 554, 556, drawing the stationary / axially operable component 1810 toward the cap receiving socket bottom wall 534, wherein the socket accessory sealing ring 1865 is pressed against the cap receiving socket bottom wall 534 of the resealable container lid 510, creating a seal, as shown in FIG. 181 . Additionally, the socket accessory off-center tear panel plug 1838 is seated into the dispensing aperture of the resealable container lid 510, providing another seal therebetween. Once the socket mating rotary actuator 1860 is tightened, the modified resealable container 500 is ready for use.
- a second exemplary specialized cap is a baby bottle nipple socket accessory 1900, detailed in FIG. 182 .
- the baby bottle nipple socket accessory 1900 includes features that are similar to those of the drinking straw socket accessory 1800. Like features of the baby bottle nipple socket accessory 1900 and the drinking straw socket accessory 1800 are numbered the same except preceded by the numeral '19'.
- the baby bottle nipple socket accessory 1900 can be configured having a unitary cap design, as shown, or having the mason jar-like cap assembly design of the drinking straw socket accessory 1800.
- a baby bottle nipple feature 1920 is preferably fabricated of a latex, silicone, or any other suitable material.
- the baby bottle nipple feature 1920 is preferably shaped and includes features resembling and associated with a common bottle nipple.
- the illustration identifies a baby bottle nipple dispensing aperture 1928 cut through a distal end of a baby bottle nipple pliable projecting component 1922.
- the baby bottle nipple feature 1920 can be overmolded onto a flange of the socket mating baby bottle nipple rotational attachment element 1960, adhesively joined with the flange of the socket mating baby bottle nipple rotational attachment element 1960, or by any other suitable joining process.
- a third exemplary specialized cap is a sipping cup socket accessory 2000, detailed in FIG. 183 .
- the sipping cup socket accessory 2000 includes features that are similar to those of the baby bottle nipple socket accessory 1900. Like features of the sipping cup socket accessory 2000 and the baby bottle nipple socket accessory 1900 are numbered the same except preceded by the numeral '20'.
- the sipping cup socket accessory 2000 can be configured having a unitary cap design, as shown, or having the mason jar-like cap assembly design of the drinking straw socket accessory 1800.
- a sipping cup mouth piece feature 2020 is preferably unitarily integrated into a socket accessory traversing wall 2034 of the sipping cup socket accessory 2000.
- the sipping cup mouth piece feature 2020 is preferably shaped and includes features resembling and associated with a common children's sippy cup (sipping cup).
- the sipping cup mouth piece feature 2020 includes a sipping cup dispensing aperture 2028 formed passing through a top of a sipping cup mouth piece pliable surface 2022.
- a fourth exemplary specialized cap is a sports bottle socket accessory 2100, detailed in FIG. 184 .
- the sports bottle socket accessory 2100 includes features that are similar to those of the drinking straw socket accessory 1800. Like features of the sports bottle socket accessory 2100 and the drinking straw socket accessory 1800 are numbered the same except preceded by the numeral '21'.
- the sports bottle socket accessory 2100 can be configured having a unitary cap design or having the mason jar-like cap assembly design of the drinking straw socket accessory 1800, as shown.
- the sports bottle socket accessory 2100 includes a sports bottle mouth piece feature 2120.
- the sports bottle mouth piece feature 2120 can be similar to any known axial sealing and dispensing configuration, such as those commonly used in sports bottles.
- the sports bottle mouth piece feature 2120 includes a sports bottle mouth piece axially sealing component 2122 axially moveable along a sports bottle neck feature 2121.
- a sports bottle dispensing aperture 2128 is formed through the 2122, enabling passage of a drink therethrough when the sports bottle mouth piece axially sealing component 2122 is pulled into a dispensing position.
- the sports bottle mouth piece feature 2120 transitions into a sealed configuration when the sports bottle mouth piece axially sealing component 2122 is compressed rearward into the sports bottle neck feature 2121.
- a fifth exemplary specialized cap is a rotating resealable fluid dispensing spout socket accessory 2200, detailed in FIGS. 185 , 186 .
- the rotating resealable fluid dispensing spout socket accessory 2200 includes features that are similar to those of the sports bottle socket accessory 2100. Like features of the rotating resealable fluid dispensing spout socket accessory 2200 and the sports bottle socket accessory 2100 are numbered the same except preceded by the numeral '22'.
- the rotating resealable fluid dispensing spout socket accessory 2200 can be configured having a unitary cap design or having the mason jar-like cap assembly design of the drinking straw socket accessory 1800, as shown.
- the rotating resealable fluid dispensing spout socket accessory 2200 includes a rotating resealable fluid dispensing spout feature 2220.
- the rotating resealable fluid dispensing spout feature 2220 can be similar to any known radially sealing and dispensing configuration, such as those commonly used in condiment delivery containers.
- the rotating resealable fluid dispensing spout feature 2220 includes a rotating resealable fluid dispensing spout 2222 rotationally moveable by a rotating resealable fluid dispensing spout ball hinge 2226.
- a rotating resealable fluid dispensing spout dispensing aperture 2228 is formed through the rotating resealable fluid dispensing spout 2222, enabling passage of a product therethrough when the rotating resealable fluid dispensing spout feature 2220 is rotated into a dispensing position.
- the rotating resealable fluid dispensing spout feature 2220 transitions into a sealed configuration when the rotating resealable fluid dispensing spout 2222 is rotated into the rotating resealable fluid dispensing spout accepting cavity 2229.
- the rotating resealable fluid dispensing spout ball hinge 2226 includes a fluid passageway and a seal that toggle between registration with a respective fluid dispensing passageway within the non-rotary / axially operable component 2210 and a sealing surface within the non-rotary / axially operable component 2210.
- the process for opening and closing the rotating resealable fluid dispensing spout feature 2220 is well known by those skilled in the art and is therefore not detailed herein.
- cam tracks 552, 554, 556 (and other variants) and the respective cam followers 581, 582, 583 (and other variants) are exemplary and the features can be broadly described as a container lid rotational and axial guide feature integral with the vertical sidewall 532 (and other variants) of the container lid 510 (and other variants).
- the respective cam followers 581, 582, 583 (and other variants) are exemplary and the features can be broadly described as a sealing cap rotational and axial guide feature integral with the cap vertical sidewall 562 (and other variants) of the sealing cap 560 (and other variants).
- cam tracks 552, 554, 556 (and other variants) and the respective cam followers 581, 582, 583 (and other variants) can be exchanged. More specifically, the cam tracks 552, 554, 556 can be formed on the resealable container cap cylindrical exterior sidewall 562 and the cam followers 581, 582, 583 can be formed on the cap receiving socket cylindrical sidewall 532.
- one sealing configuration can be adapted to another container lid assembly configuration, such as the frustum shaped sealing configuration 1365, 1465, 1565 can be used in place of an annular sealing configuration of a different variant.
- the sealing element 365, 565, 665, 1165, 1365, 1465, 1565 can be carried by the container lid 310, 510, 610, 1110, 1310, 1410, 1510 instead of the cap 360, 560, 660, 1160, 1360, 1460, 1560.
Description
- The present invention relates to a resealable container lid assembly. In general, the resealable lid is assembled to a container such as an aluminum beverage can. The cap is assembled to the lid and rotated by the consumer to open and reseal the can. The rotational movement of the cap is converted into linear motion by one or more cam mechanisms to effect an opening action, fracturing a score line and bending a tear panel inward into the can. Once the can is opened, the cap can be removed for consumption of content stored therein and replaced to reseal the opened lid.
- The beverage and can industries have long sought to create a can that is both economical to produce and convenient for use by consumers. In the past, beverage cans were provided with a "pull tab" which the consumer would grab by a ring, and pull until the tab was removed from the can. This created a problem in that the tab became disposable waste for which the consumer was responsible to ensure proper disposal. Often the consumer failed to properly dispose of the tab, thereby creating not only litter, but also a safety issue, in that the tabs could be swallowed by small children. Moreover, the edges of the pull tab were sharp enough that they could, if mishandled, cut the fingers or hands of the consumer or anyone else who handled a loose pull tab. As a result of these problems, the industry moved in the direction of a tab that stayed on the can after opening, thereby preventing both litter and any sharp edges from coming into contact with consumers.
- The present state of the art is to have a "stay on" tab that is attached to the can lid by a rivet formed in the can lid next to the opening. The opening is formed by a score line, or frangible "kiss cut" which breaks when the tab is pulled up by the consumer. The score line, when broken, produces a hinged flap that stays connected to the can lid, but inside the can.
- Beverage cans with stay on tabs suffer from at least the following deficiencies. First, they are not resealable, so that once the consumer opens the beverage; the contents are subject to loss of carbonation, and the influx of foreign material due to the contents being open to the surrounding environment. Secondly, in order to form the rivet which is used to secure the stay on tab to the beverage lid, the lid needs to be made of a different material, typically an aluminum alloy that is stronger than the aluminum alloy used to make the sides and bottom of the can. Further, the tab itself is typically made of a different alloy than the sides and lid, reflecting the need for a still stronger, typically stiffer material. As a result, recycling of the aluminum beverage can is problematic because the different materials need to be separated. The use of three different materials also tends to add complexity, and expense, to the finished container.
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US 5 692 633 A teaches a resealable container lid assembly comprising: - a container lid comprising: a vertical sidewall having a cylindrical shape extending between an upper peripheral edge and a lower peripheral edge, a seaming panel formed about the vertical sidewall upper peripheral edge, the seaming panel being adapted to assemble the container lid to a container sidewall of a container for comestibles, and a container lid seal engaging surface.
- a container lid sealing cap comprising: a resealable container cap generally horizontally oriented traversing wall, a resealable container cap cylindrical exterior sidewall arranged generally perpendicular to the resealable container cap generally horizontally oriented traversing wall, the reseal able container cap cylindrical exterior sidewall having a cylindrical shape, sized to rotationally engage with an interior surface of the container lid vertical sidewall, a grip feature adapted to receive a force to cause a rotational motion of the container lid sealing cap (the outside of the cap is able to receive such a force), a sealing element arranged to engage with the container lid seal engaging surface, wherein the container lid sealing cap is inserted into an interior volume defined by the container lid vertical sidewall.
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US 5 692 633 A lacks an arrangement where the container lid comprises a container lid rotational and axial guide feature integral with the vertical sidewall, that the container lid sealing cap comprises a sealing cap rotational and axial guide feature integral with the cap cylindrical exterior sidewall, and that wherein the container lid sealing cap is inserted into an interior volume defined by the container lid vertical sidewall, wherein the sealing element engages with the container lid seal engaging surface when the sealing cap rotational and axial guide feature is rotationally engaged with the container lid rotational and axial guide feature. - A need exists for improved beverage containers that are resealable, cost effective to produce, and "green" in terms of avoiding waste and facilitating the recycling of aluminum cans. Concurrently, a need exists for improved methods for manufacturing beverage containers that result in faster production time, lower production costs, and improved products.
- The invention is defined by a resealable container lid assembly according to appended
claim 1. Preferred embodiments are defined by dependent claims 2-15. A container has a sidewall and integrally formed bottom. The container is preferably a beverage container, but could be adapted to any suitable container. A top lid includes a socket integrally formed therein; the socket including a substantially cylindrical sidewall and a bottom wall. A score line formed in the bottom wall defines a tear panel which forms an opening into the can when the score line is fractured and the tear panel is bent inward or removed. A cap is fitted in the socket and has a sidewall which is formed with cam surfaces. The cam surfaces, formed as grooves or slots, cooperate with bosses or detents formed in the cylindrical sidewall of the socket. The design of the cam surfaces and associated bosses translate the rotational motion of the cap into linear motion, wherein the linear motion fractures the score line and opens the tear panel. As the cap moves downwardly, a protrusion formed on the lower surface of the cap impinges on the periphery of the score line, fracturing the score line and subsequently pushing the tear panel into the can. - Once opened, the cap can be re-fitted into the socket, so that the cam surfaces engage the detents, and are rotated to achieve a sealing position, whereby the contents of the can are protected from the ambient atmosphere. This will result in the prevention of spillage, the loss of carbonation, and the prevention of foreign objects from entering the can. The user can opt to discard the cap and/or container once the entire contents of the can are consumed.
- Preferably, the container is a beverage container, commonly referred to as a "can," but the same principals described above could be used for other types of containers, including bottles made of various materials, including plastic, paper, metal (such as aluminum), cartons, cups, glasses, etc. In one particularly preferred embodiment, the container can be an aluminum can with a body manufactured of an aluminum alloy material, and a container lid being manufactured of the same aluminum alloy material as the container. The cap can be made of a plastic material of sufficient hardness that the cam surfaces do not deform during opening and closing operations, a metal, or any other suitable material.
- In accordance with one example which does not form part of the present invention, a resealable beverage container lid assembly comprises
- a lid for a beverage container, comprising:
- a substantially planar member having a peripheral edge;
- a socket formed near the peripheral edge of the planar member and having a cylindrical sidewall and a bottom wall;
- a score line disposed in the bottom wall of the socket and defining a tear panel, wherein the score line is located inward from the cylindrical sidewall, defining an annular surface between the score line and the cylindrical sidewall providing a seating arrangement segment, and whose start and end do not meet to define a hinge for the tear panel;
- a hinge section defined by ends of the score line, wherein the hinge section extends between the tear panel and the annular surface maintaining attachment of the tear panel to the planar member when the score line is fractured;
- a cap having a bottom surface extending across a lower edge of a cylindrical sidewall, the cap movably disposed in the socket, locating the cap bottom surface adjacent to the bottom wall of the socket, the cap comprising a pointed projection extending downward from the cap bottom surface and disposed offset to a center axis of the cap, wherein when the cap is assembled in the socket, the pointed projection extends downwardly into the socket and is disposed immediately above the score line; and
- an earn feature for driving the cap between opening, removal and resealing positions relative to the score line, the earn feature comprising at least one earn surface in cooperative engagement with a cam feature, wherein the earn feature translates a rotational motion into a linear motion substantially perpendicular to a plane defined by the rotational motion,
- wherein the lid is adapted to be assembled to a container body by joining the peripheral edge of the planar member to a top edge of a sidewall of the container body creating a sealed beverage container.
- In a second aspect, the container body is substantially cylindrical and the bottom wall is integrally formed with the sidewall.
- In another aspect, the bottom wall, the sidewall and the lid are all made of a same material.
- In yet another aspect, the bottom wall, the sidewall and the lid are all fabricated from one planar sheet of material.
- In yet another aspect, the material is selected from a group of materials, the group of materials comprising:
- a. Metal,
- b. Aluminum alloy,
- c. Steel alloy,
- d. Tin,
- e. Plastic,
- f. Nylon,
- g. Polyvinyl chloride (PVC),
- h. Polyethylene terephthalate (PETE or PET),
- i. Thermoplastic elastomer (TPE),
- j. High-Density Polyethylene (HDPE),
- k. Polypropylene (PP),
- l. Polycarbonate.
- In yet another aspect, at least one of the bottom wall, the sidewall and the lid is made of an aluminum alloy.
- In yet another aspect, the bottom wall, the sidewall and the lid are all made of the aluminum alloy.
- In yet another aspect, the lid includes a socket extending downwardly into an interior space of the container body, the socket having a sidewall and a bottom wall. The cap including a sidewall and a bottom wall, and wherein the cap is adapted to fit into the socket.
- In yet another aspect, the socket of the container lid is formed within the planar base panel of the container lid.
- In yet another aspect, the socket of the container lid is located proximate a circumferential edge of the container lid.
- In yet another aspect, the entire peripheral edge of the socket of the container lid is off-centered respective to a seaming panel or a circumferential edge of the container lid.
- In yet another aspect, the entire peripheral edge of the socket of the container lid is concentrically located respective to a seaming panel or a circumferential edge of the container lid.
- In yet another aspect, a peripheral edge wall of the socket of the container lid is located between a seaming panel and a peripheral countersink.
- In yet another aspect, the peripheral edge wall of the socket of the container lid is arranged being substantially vertically oriented.
- In yet another aspect, the peripheral edge wall of the socket of the container lid is arranged being substantially vertically oriented, the peripheral edge wall further comprising at least one earn feature.
- In yet another aspect, the socket additionally includes an assembly element for assembling and retaining a secondary component to the container lid.
- In yet another aspect, the assembly element formed within the socket is located within the sidewall of the socket.
- In yet another aspect, the assembly element formed within the sidewall of the socket is provided in a form of a cam track.
- In yet another aspect, the assembly element formed within the sidewall of the socket is provided in a form of a cam engaging projection.
- In yet another aspect, the container lid sidewall and the socket sidewall are distinct from one another.
- In yet another aspect, the container lid sidewall and the socket sidewall are the same.
- In yet another aspect, the container lid further comprising a reinforcement section formed within a bottom wall of the socket of the container lid.
- In yet another aspect, the container lid further comprising a reinforcement structure located about a peripheral edge of the container lid planar base bottom.
- In yet another aspect, the container lid further comprising a reinforcement structure that is formed as an embossed feature extending upward into a void within the socket cavity.
- In yet another aspect, the container lid further comprising a reinforcement structure that is formed as a debossed feature extending downward away from the void within the socket cavity.
- In yet another aspect, the container lid further comprises a reinforcement structure that is formed having both the embossed feature extending upward into the void within the socket cavity and the debossed feature extending downward away from the void within the socket cavity.
- In yet another aspect, the container lid further comprises a reinforcement structure that is formed on the planar base bottom, outward of the score line.
- In yet another aspect, the container lid further comprises a reinforcement structure that is formed on the container lid planar base bottom, outward of the score line.
- In yet another aspect, the reinforcement structure includes features that are employed for translation of a radial motion into at least one of an axial motion and an axial force.
- In yet another aspect, the reinforcement structure includes features that are employed to induce a torsional force upon the tear panel to rotate or bend the tear panel away from the container lid planar base bottom.
- In yet another aspect, the reinforcement structure is adapted to distribute the fracturing force applied by the cap onto the tear panel to propagate the bifurcation fracturing of the score line.
- In yet another aspect, the reinforcement structure includes guide features acting as a pathway for an incisor during rotation of the cap respective to the container lid.
- In yet another aspect, the reinforcement structure includes guide features acting as an incisor pathway channel providing clearance for the incisor during rotation of the cap respective to the container lid.
- In yet another aspect, the incisor pathway channel is formed as an initial step in the formation of the container lid.
- In yet another aspect, the incisor pathway channel is formed following the formation of a majority of the features of the container lid.
- In yet another aspect, the incisor pathway channel includes at least one indexing formation. The indexing formation can be formed during the process used for forming a length of the incisor pathway channel or formed separately. The indexing formation is integral with at least one end of the incisor pathway channel; preferably having one formed at each end of the incisor pathway channel. The at least one indexing formation can be employed to provide registration between the container lid and tooling during the container lid fabrication process.
- In yet another aspect, the indexing formation is formed prior to the formation of the incisor pathway channel.
- In yet another aspect, the indexing formation is formed subsequent to the formation of the incisor pathway channel.
- In yet another aspect, the reinforcement structure can be employed for nesting of at least one feature provided on the cap.
- In yet another aspect, the container lid can include a reinforcement structure formed about the socket sidewall.
- In yet another aspect, the container lid can include a reinforcement structure formed about an upper edge of the socket sidewall.
- In yet another aspect, the container lid can include a reinforcement structure formed about the seaming panel of the container lid.
- In yet another aspect, the container lid can include a reinforcement structure formed about a lower portion of the seaming panel of the container lid.
- In yet another aspect, the container lid can include a reinforcement structure formed about the seaming panel of the container lid, wherein the reinforcement feature is employed to retain a cylindrical shape of the container lid sidewall.
- In yet another aspect, the container lid can include a reinforcement structure formed about the lower portion of the seaming panel of the container lid, wherein the reinforcement structure is employed as a support for a respective seating feature of a seaming chuck.
- In yet another aspect, the container lid can include a reinforcement structure formed about the lower portion of the seaming panel of the container lid, wherein the reinforcement structure is employed to provide planar support for the respective seating feature of the seaming chuck.
- In yet another aspect, the container lid can include a reinforcement structure formed about a bottom edge of the socket sidewall.
- In yet another aspect, the container lid can include a reinforcement structure formed about a bottom edge of the socket sidewall, wherein the reinforcement feature is a countersink.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange using a roll forming process.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange using a roll forming process in conjunction with a compression process. The roll forming process can be completed using any suitable roll forming process. In one exemplary method, at least one roller is rotated about a stationary assembly. In a second exemplary method, the assembly is rotated about at least one stationary roller. In a third exemplary method, the assembly is rotated about at least one rotating roller.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid. The axial compression force application process can be completed using any suitable roll forming process.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid using a frustum shaped mating surface between a seaming chuck and the container lid seaming panel.
- In yet another aspect, the container lid seaming panel is assembled to the container body seaming flange using a step of applying an axial compression force to the container lid by applying a compression force from the respective seating feature provided on the seaming chuck and a seaming chuck shoulder formed about an interior surface of the container lid sidewall. The respective seating feature can alternatively be referred to as a planar driving surface.
- In yet another aspect, the seaming chuck can further comprise a cavity formed extending inward from a seaming chuck bottom surface, wherein the seaming chuck bottom surface cavity provides clearance for features of the container lid assembly.
- In yet another aspect, the seaming chuck can further comprise a cavity formed extending inward from a seaming chuck bottom surface, wherein the seaming chuck bottom surface cavity provides clearance for features of the container lid assembly, which includes the container lid and the container cap.
- In yet another aspect, the container lid seaming panel can be assembled to the container body seaming flange using a bonding process.
- In yet another aspect, the container lid is adapted for deformation during subjection to and resulting from a retort process.
- In yet another aspect, a tamper indicator actuator (or similar feature) ensures and maintains sufficient separation between the resealable container cap substantially horizontally oriented traversing wall (more specifically, the incisor) and the cap receiving socket bottom wall to avoid premature fracturing of the score line during subjection to the retort process.
- In yet another aspect, during the retort process, the vertical sidewall of the container lid deforms inward, pinching the cam tracks against the respective cam followers of the resealable container cap. This configuration retains the cap within cap receiving socket of the container lid while subjected to the retort process.
- In yet another aspect, the lid further comprising a socket adapted to receive the cap and an earn feature, wherein the earn feature includes elements formed on opposing cylindrical surfaces of the socket and cap.
- In yet another aspect, each earn surface is formed on an outer cylindrical surface of the cap, and projections are formed on the inner cylindrical surface of the socket, wherein each earn surface is adapted to engage the projections whereby rotational movement of the cap imparts translational movement to the cap.
- In yet another aspect, the first drive system for driving the cap into operable engagement with the tear panel, thereby pushing the tear panel into the can to form an opening in the lid; and
- a second drive system, operable in response to the first drive system, to increase the engagement between the cap and the tear panel,
- wherein the cap includes a sharp projection formed in a center of the bottom wall of the cap, and the socket includes a score line formed in a center of the bottom wall of the socket, in juxtaposition to the sharp projection when the cap is positioned in the socket.
- In yet another aspect, the second drive means includes a second linear motion drive mechanism, capable of converting rotational motion of the cap into a separation force applied upon the tear panel.
- In yet another aspect, the first linear motion drive mechanism includes first and second cam structures, formed respectively on the cap cylindrical sidewall and socket cylindrical sidewall.
- In yet another aspect, the second linear motion drive mechanism includes third and fourth cam structures, formed respectively on the cap bottom wall and the socket bottom wall.
- In yet another aspect, the first cam structure includes a groove formed in the cap cylindrical sidewall, and the second cam structure includes at least one projection formed on the socket cylindrical sidewall.
- In yet another aspect, the third cam structure includes at least one cap ramp and the fourth cam structure includes at least one socket ramp in sliding engagement with the at least one cap ramp.
- In yet another aspect, the at least one cap ramp includes three ramps arranged peripherally around the cap bottom wall, in sliding engagement with the at least one socket ramp.
- In yet another aspect, the cap second linear drive mechanism element is a first series of ramps, and the mating socket second linear drive mechanism element is a second series of ramps, wherein each ramp of the first series of ramps and each associated ramp of the second series of ramps are in sliding engagement with one another.
- In yet another aspect, at least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap.
- In yet another aspect, at least a portion of the ramp is configured to be a debossed feature, extending upward from the bottom surface of the cap.
- In yet another aspect, at least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap.
- In yet another aspect, at least a portion of the ramp is configured to be an embossed feature, extending downward from the bottom surface of the cap and a second portion of the ramp is configured to be a debossed feature, extending upward from the bottom surface of the cap.
- In yet another aspect, the opening process includes a mechanism enabling the cap to distally separate from the container lid upper surface, thus separating the sealing element from the upper surface of the cap receiving socket bottom wall, eliminating any friction between the sealing element and the associated mating surface.
- In yet another aspect, separation of the sealing element and the associated mating surface enables depressurization of the pressurized contents within container to eliminate missiling.
- In yet another aspect, the score line is adapted to define a pathway for initiating and propagating a fracture defining a tear panel from the container lid planar based bottom or socket bottom wall.
- In yet another aspect, the score section is formed upon the container lid planar base bottom.
- In yet another aspect, the score section is formed upon an exterior surface of the container lid planar base bottom.
- In yet another aspect, the score section is formed upon an interior surface of the container lid planar base bottom.
- In yet another aspect, the score section is formed upon at least one of an exterior surface of the container lid planar base bottom and an interior surface of the container lid planar base bottom.
- In yet another aspect, the score section is formed upon a socket bottom wall, wherein the socket is formed within the container lid planar base bottom.
- In yet another aspect, the score section is concentric with respect to the container lid socket sidewall.
- In yet another aspect, the score section is located off-center with respect to the container lid socket sidewall.
- In yet another aspect, a portion of the score section is formed within an incisor pathway channel.
- In yet another aspect, a portion of the score section is formed on a sidewall of the incisor pathway channel.
- In yet another aspect, a portion of the score section is formed on a radial portion of the sidewall of the incisor pathway channel.
- In yet another aspect, a portion of the score section is formed on an end portion of the sidewall of the incisor pathway channel.
- In yet another aspect, the score line is a first score line and further comprising a central piercing formation located proximate the center of the lower end of the cap, a second score line formed in the middle of the tear panel and juxtaposed the central piercing element, wherein a downward motion of the cap causes the central piercing element to pierce the center of the tear panel to release internal pressure and thereby facilitate breaking of the first score line by the pointed projection.
- In yet another aspect, the score section is formed having a pair of score grooves; the pair of score grooves is arranged substantially parallel to one another.
- In yet another aspect, the score section is formed having a pair of score grooves; the pair of score grooves is joined to one another at one end.
- In yet another aspect, the score section is formed having a pair of score grooves; the pair of score grooves is joined to one another at one end by a loop formation.
- In yet another aspect, the score line is shaped initiating at a looped segment and having a pair of line segments extending from each end of the looped segment, the pair of line segments extending in a like direction generally following a peripheral edge of the socket bottom wall.
- In yet another aspect, the score line is shaped initiating at a looped segment and having a pair of line segments extending from each end of the looped segment, the pair of line segments extending in a like direction generally following a peripheral edge of the socket bottom wall, wherein the pointed projection is in alignment with a center of the looped segment of the score line.
- In yet another aspect, the score line is includes at least two intersecting lines, and wherein the sharp projection is juxtaposed at the intersection between the two lines.
- In yet another aspect, the score line is formed in an "S" shape.
- In yet another aspect, the score line is formed in an "S" shape, defining a pair of tear panels.
- In yet another aspect, the score line is formed in an "S" shape, defining a pair of tear panels, wherein each end of the score line defines a respective hinge for the respective tear panel.
- In yet another aspect, the score line is adapted to define a hinge section.
- In yet another aspect, the container lid further comprising a hinge section defined by ends of the score line, wherein the hinge section extends between the tear panel and the annular surface maintaining attachment of the tear panel to the planar member when the score line is fractured.
- In yet another aspect, the score line is formed using a single score forming step.
- In yet another aspect, the score line is formed using multiple score forming steps.
- In yet another aspect, the score line is formed using multiple score forming steps, wherein an intersection between ends of the first score segment formed by the first score forming step and the second score segment formed by a subsequent score forming step is facilitated by including an enlarged score area located at the intersection between the first score segment and the second score segment.
- In yet another aspect, the enlarged score area adjoining two (2) separately formed score line segments is employed to perform at least one function of initiating and propagating the fracture of the score line.
- In yet another aspect, the multiple score line process employs registration features formed within the container lid to maintain registration accuracy between the first score forming step and each subsequent score forming step.
- In yet another aspect, the score line can be reinforced by applying a sealant material on at least one side of the material having the score line. The reinforced score line can be formed partially extending through the score receiving substrate or extend completely through the score receiving substrate.
- In yet another aspect, the enlarged score area adjoining two (2) separately formed score line segments, includes a thinned material fracture section located upon a same surface as the score line, and a broader compression formed concave surface located on an opposite side of the score receiving substrate, wherein the combination ensures a desired movement of material during the forming process. The process is adapted to form the scoring fracture initiation or propagation section by the traversing displacement of the material.
- In yet another aspect, the enlarged score area adjoining two (2) separately formed score line segments can be of any suitable shape, including circular, oval, oblong, square, rectangular, diamond, hexagonal, octagonal, or any other suitable shape.
- In yet another aspect, at least one end of the score line includes an outward arched segment, wherein the outward arched segment is adapted to direct any additional fracturing away from the hinge formation.
- In yet another aspect, both ends of the score line include outward arched segments, wherein the outward arched segments are adapted to direct any additional fracturing away from the hinge formation.
- In yet another aspect, the score line can be arranged providing a counterclockwise driven opening, having score line fracture initiating location on a left side of the tear panel and a hinge located on a right side.
- In yet another aspect, the score line can be arranged providing a clockwise driven opening, having score line fracture initiating location on a right side of the tear panel and a hinge located on a left side.
- In yet another aspect, the cap includes an upper end and a lower end, and the tear panel is shaped defining a flap that opens when the pointed projection is driven downwardly by the earn feature to impinge upon the score line.
- In yet another aspect, the cap is fabricated from a single sheet of planar material.
- In yet another aspect, the cap is fabricated using at least one metal forming process. The at least one metal forming process can include a stamping process, a sheering process, a drawing process, a wall ironing process, a metal pinching process, a rolling process, and the like.
- In yet another aspect, the cap is fabricated using a machining process.
- In yet another aspect, the cap is fabricated using a molding process.
- In yet another aspect, the cap is fabricated using a casting process.
- In yet another aspect, a cap planar traversing wall, a sidewall, and a grip feature are all made of a same material.
- In yet another aspect, the cap planar traversing wall, the sidewall, and the grip feature are all fabricated from one planar sheet of material.
- In yet another aspect, the material is selected from a group of materials, the group of materials comprising:
- a. Metal,
- b. Aluminum alloy,
- c. Steel alloy,
- d. Tin,
- e. Plastic,
- f. Nylon,
- g. Polyvinyl chloride (PVC),
- h. Polyethylene terephthalate (PETE or PET),
- i. Thermoplastic elastomer (TPE),
- j. High-Density Polyethylene (HDPE),
- k. Polypropylene (PP), and
- l. Polycarbonate.
- In yet another aspect, at least one of the cap planar traversing wall, the sidewall, and the grip feature is made of an aluminum alloy.
- In yet another aspect, the cap planar traversing wall, the sidewall, and the grip feature are all made of the aluminum alloy.
- In yet another aspect, the cap includes at least one grip.
- In yet another aspect, the cap further comprising a grip element formed in the upper end of the cap.
- In yet another aspect, the grip element is formed having a debossed shape, wherein the debossed shape extends downward from the cap planar traversing wall.
- In yet another aspect, the grip element is formed having an embossed shape, wherein the embossed shape extends upward from the cap planar traversing wall.
- In yet another aspect, the grip element is formed having a pinched shape.
- In yet another aspect, the grip element is formed having a pinched dome shaped upward extending projection.
- In yet another aspect, the grip element is formed having a cylindrical shape.
- In yet another aspect, the grip element is formed having a cylindrical shaped cavity, wherein the cylindrical shaped grip element cavity is a deboss extending downward from the cap planar traversing wall.
- In yet another aspect, the grip element is formed having a cylindrical shaped formation, wherein the cylindrical shaped grip element formation is an emboss extending upward from the cap planar traversing wall.
- In yet another aspect, the cylindrical shaped grip element formation includes a peripheral edge grip enhancing formation.
- In yet another aspect, the grip element is formed having a bar or linear shape.
- In yet another aspect, the cap includes at least one feature for receiving an implement.
- In yet another aspect, wherein the at least one feature for receiving the implement includes at least one bar shaped element.
- In yet another aspect, wherein the at least one feature for receiving the implement includes a pair of bar shaped elements spatially arranged to receive the implement.
- In yet another aspect, the cap includes at least one feature for receiving an implement, wherein the implement is a coin.
- In yet another aspect, the cap can include at least one cap reinforcement structure.
- In yet another aspect, the cap reinforcement structure can be formed as a gripping element.
- In yet another aspect, the cap reinforcement structure can be formed as a sidewall.
- In yet another aspect, the cap reinforcement structure can be formed as a countersink.
- In yet another aspect, the cap reinforcement structure can be formed as an incisor deboss panel.
- In yet another aspect, the cap reinforcement structure can be formed as at least one ramp.
- In yet another aspect, the cap reinforcement structure can be formed as a tamper indicator.
- In yet another aspect, the cap includes a piercing element or incisor extending downward from a bottom surface of the cap.
- In yet another aspect, the incisor is formed using a molding process.
- In yet another aspect, the incisor is formed using a molding process that is accomplished during the formation of the cap.
- In yet another aspect, the incisor is formed using a metal forming process.
- In yet another aspect, the incisor is formed as a debossed feature.
- In yet another aspect, the incisor includes a leading edge, a trailing edge and a bottom surface.
- In yet another aspect, the leading edge of the incisor is adapted to initiate a fracture of the score line.
- In yet another aspect, the incisor is formed using a metal forming process that is accomplished during the formation of the cap.
- In yet another aspect, the incisor is integral with a secondary feature, wherein the secondary feature extends downward from the cap bottom surface.
- In yet another aspect, the incisor is integral and located within with a secondary feature, wherein the secondary feature extends downward from the cap bottom surface.
- In yet another aspect, the secondary feature being a platform.
- In yet another aspect, the secondary feature being a debossed section.
- In yet another aspect, the secondary feature being a grip formation.
- In yet another aspect, the incisor extends downward from a bottom surface of the secondary feature.
- In yet another aspect, the secondary feature is a ramp or other load generating and/or distributing formation.
- In yet another aspect, the incisor is a ramp or other load generating formation.
- In yet another aspect, the incisor is located concentrically respective to the peripheral edge of the cap.
- In yet another aspect, the incisor is located off-center respective to the peripheral edge of the cap.
- In yet another aspect, the incisor is located in rotational registration with at least a portion of the score line.
- In yet another aspect, the incisor is located in rotational registration with a thinned or fracture initiation feature of the score line.
- In yet another aspect, the incisor is located in a position on the cap, wherein the incisor intersects a portion of the score line during a rotational motion of the cap respective to the container lid.
- In yet another aspect, the incisor is located in registration with the score line, wherein the incisor applies a fracturing force to the score line as the cap is axially positioned towards the container lid.
- In yet another aspect, the cap can include a plurality of incisors.
- In yet another aspect, the cap can include a plurality of incisors, wherein each of the plurality of incisors is located enabling ambiguity of initial assembly of the cap onto the container lid.
- In yet another aspect, cap includes tamper evidence feature.
- In yet another aspect, the tamper evidence feature of the cap is provided as a frangible skirt circumscribing a peripheral edge of the cap.
- In yet another aspect, the cap has an upper end having a peripheral edge, and the cap includes a skirt formed along the peripheral edge, the skirt including an opened indicating feature for visually indicating when beverage container has been opened.
- In yet another aspect, the opened indicating feature includes score lines formed radially outwardly at spaced intervals along the skirt, wherein the score lines are broken to allow movement of the skirt when the cap moves downwardly.
- In yet another aspect, the tamper indicator can be formed as an embossed dome shaped upward projection.
- In yet another aspect, the embossed dome shaped upward projection operates by allowing a flexure in a direction opposite to the domed shape when unsupported. The flexibility enables the tamper indicator to report, similar to a clicking device.
- In yet another aspect, the embossed dome shaped upward projection functions employing a mechanically supported configuration.
- In yet another aspect, the embossed dome shaped upward projection can further include a downward projecting probe or operating element to provide support to the embossed dome shaped upward projection.
- In yet another aspect, the downward projecting probe or operating element is adapted to contact the opposing surface of the container lid bottom wall. The downward projecting probe contacts the opposing surface of the container lid bottom wall. When the interior volume within the container is pressurized, the contained pressure stiffens the container lid bottom wall. Thus, in a sealed configuration, the downward projecting probe contacting the stiffened container lid bottom wall retains the tamper indicator in an upward shape. When the integrity of the container is compromised, the pressure is equalized within the interior volume of the container, thus no longer providing stiffness to the container lid bottom wall. Thus, in a compromised configuration, the downward projecting probe contacting the unsupported container lid bottom wall no longer retains the tamper indicator in an upward shape, enabling the tamper indicator to flex. The flexibility enables the tamper indicator to report, similar to a clicking device.
- In yet another aspect, the embossed dome shaped upward projection functions employing a pneumatically supported configuration.
- In yet another aspect, the pneumatically supported configuration employs a vacuum formed within the container. In a vacuum support configuration, the safety indicator is normally drawn towards the interior of the container.
- In yet another aspect, the pneumatically supported configuration employs a pressure formed within the container. In a pressure support configuration, the safety indicator is normally forced away from the interior of the container.
- In yet another aspect, the embossed dome shaped upward projection is concentrically located respective to a peripheral edge of the cap.
- In yet another aspect, the embossed dome shaped upward projection is located off centered respective to a peripheral edge of the cap.
- In yet another aspect, the tamper indicator would be formed using a fabrication process compatible with the method(s) used for manufacturing the cap.
- In yet another aspect, the downward projecting probe or operating element of the tamper indicator can alternatively be an upward projecting probe extending upward from the cap receiving socket bottom wall of the container lid.
- In yet another aspect, a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal provided on a bottom surface of the cap and a respective sealing surface located on the upper surface of the container lid bottom wall.
- In yet another aspect, the sealing surface located on the upper surface of the container lid bottom wall extends between the vertical socket wall and the fractured score line.
- In yet another aspect, the sealing feature provided on the cap is concentrically located respective to a peripheral edge of the cap.
- In yet another aspect, the sealing feature provided on the cap is located off centered respective to a peripheral edge of the cap. The sealing feature would be located on the cap to encompass the score line about the tear panel when the cap is rotated into a sealing position in the container lid.
- In yet another aspect, the sealing feature provided on the cap is teardrop shaped.
- In yet another aspect, the sealing feature provided on the cap is located off centered respective to a peripheral edge of the cap and teardrop shaped.
- In yet another aspect, a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal element carried by an annular surface circumscribing a peripheral edge of the planar traversing wall of the cap and a mating surface formed on the container lid. The mating section is formed on an annular surface circumscribing a peripheral edge of the socket bottom wall of the container lid.
- In yet another aspect, a seal is formed between the container lid and the cap, more specifically; the seal is formed between an annular seal provided on a frustum shaped surface circumscribing an outer peripheral edge of the cap and a mating section formed on the container lid. The mating section is formed having a frustum shape and is located interposed between the container lid seaming panel and the vertical socket sidewall.
- In yet another aspect, the cap and lid form a seal between the seating arrangement of the socket and the lower surface of the cap.
- In yet another aspect, the cap and lid form a seal between an upper surface of the substantially planar member and a contacting surface of a flange extending radially outward from a peripheral edge about the cap.
- In yet another aspect, the cap fits substantially within the socket, and the cam feature comprises earn surfaces formed in one of the cylindrical sidewalls of the socket and the cap, and at least one projection formed in the other of the cylindrical sidewalls of the socket and the cap.
- In yet another aspect, the pliant sealing element can be carried by one of the cap or the container lid.
- In yet another aspect, the pliant sealing element can be located between the cap and the container lid.
- In yet another aspect, the pliant sealing element can be an independent component of the container lid assembly, wherein the pliant sealing element would be located between the cap and the container lid.
- In yet another aspect, the container lid includes a detent feature for securing the cap in a first position associated with pre-opening, and a second position associated with post-opening.
- In yet another aspect, the cam track is configured to include a locking detent segment.
- In yet another aspect, the locking detent segment is designed to retain the cap from rotating in a reverse direction following an initial assembly of the cap to the cap receiving socket within the container lid.
- In yet another aspect, the cap is retained in a container pre-opened position by locating each socket sidewall cam engaging projections within each respective cam track, with each socket sidewall cam engaging projections being located following the respective embossed cam surface lower detent. Further rotation in an opening direction is hindered by an upward sloping cam groove surface segment.
- In yet another aspect, the cam track includes features to retain the cap within the cap receiving cavity, while enabling an opening sequence, a dispensing configuration, as a sealing configuration. This can be accomplished by including a downward directed segment at an opposite end of the cam track.
- In yet another aspect, the cam track can include at least one of an upper detent and a downward directed segment at an upper distal end thereof, wherein the at least one of an upper detent and a downward directed segment is adapted to curtail any further rotational motion of the cap, thus retaining the cap within the cap receiving cavity of the container lid.
- In yet another aspect, the cap is retained in a container pre-opened position by locating the incisor against an end wall of an incisor pathway channel to limit rotation in an opening direction and locating each cam follower past a locking detent segment of each associated cam track to limit rotation in a reverse direction.
- In yet another aspect, the detent feature is associated with the cam feature.
- In yet another aspect, the pre-opening position is associated with functions of storage and transport, and the post-opening position is associated with resealing.
- In yet another aspect, the detent feature includes at least a portion of the earn feature.
- In yet another aspect, the cam feature includes earn elements formed on the cap which engage earn followers formed in the cylindrical sidewall of the lid, and the detent feature include detents formed in the cam elements which cooperate with the cam followers to hold the cap in the pre-opening and post opening positions.
- In yet another aspect, the sealing element is secondarily employed as a retention element to retain a rotational relationship between the cap and the container lid.
- In yet another aspect, at least one of the container lid and the cap include indicia presenting operating instructions for operating the container lid and cap assembly.
- In yet another aspect, the operating indicia includes instructions for at least one of opening, dispensing, and closing the cap upon the container lid.
- A resealable container lid assembly in accordance with the present invention as defined by
claim 1 includes: - a container lid comprising:
- a vertical sidewall having a cylindrical shape extending between an upper peripheral edge and a lower peripheral edge,
- a seaming panel formed about the vertical sidewall upper peripheral edge, the seaming panel being adapted to assembly to the container lid to a container sidewall of a container for comestibles,
- a container lid rotational and axial guide feature integral with the vertical sidewall, and
- a container lid seal engaging surface;
- a container lid sealing cap comprising:
- a resealable container cap generally horizontally oriented traversing wall,
- a resealable container cap cylindrical sidewall arranged generally perpendicular to the resealable container cap generally horizontally oriented traversing wall, the resealable container cap cylindrical exterior sidewall having a cylindrical shape, sized to rotationally engage with an interior surface of the container lid vertical sidewall,
- a grip feature adapted to receive a force to cause a rotational motion of the container lid sealing cap,
- a sealing cap rotational and axial guide feature integral with the cap vertical sidewall, and
- a sealing element arranged to engage with the container lid seal engaging surface;
- wherein the container cap is inserted into an interior volume defined by the container lid vertical sidewall,
- wherein the sealing element engages with the container lid seal engaging surface when the sealing cap rotational and axial guide feature is rotationally engaged with the container lid rotational and axial guide feature.
- In another aspect, the sealing cap rotational and axial guide feature is one of:
- a) an at least one cam follower, and
- b) an at least one cam track; and
- a) the at least one cam follower, and
- b) the at least one cam track.
- In yet another aspect, wherein the container lid seal engaging surface is a frustum shaped surface formed within the container lid vertical sidewall,
wherein the cap sealing element is arranged having a frustum shaped surface adapted to engage with the frustum shaped surface of the container lid seal engaging surface. - In yet another aspect, the resealable container lid assembly is further configured to include:
- a container lid further comprising:
- a countersink formed about the lower peripheral edge of the vertical sidewall, the countersink having a generally "U" shape,
- a cap receiving socket bottom wall extending radially inward from an inner upper edge of the countersink, and
- a score line formed within the cap receiving socket bottom wall, the score line arranged in a shape defining a tear panel and a tear panel hinge,
- wherein the container lid vertical sidewall, the countersink, and the cap receiving socket bottom wall collectively define a cap receiving socket; and
- a container lid sealing cap further comprising:
an incisor extending downward from a bottom surface of the resealable container cap generally horizontally oriented traversing wall, - wherein the container cap is inserted into the cap receiving socket,
- wherein the sealing cap rotational and axial guide feature and the container lid rotational and axial guide feature are adapted to at least one of:
- a) axially translate the resealable container cap within the cap receiving socket when the resealable container cap is rotated respective to the container lid, and
- b) generate an axial force between at least one feature integral with the bottom surface of the cap receiving socket bottom wall and a mating feature integral with the cap receiving socket bottom wall.
- wherein the incisor is adapted to initiate a fracture of the score line during rotation of the sealing cap within the cap receiving socket.
- In yet another aspect, the container lid further comprising an incisor pathway channel formed within the cap receiving socket bottom wall, the incisor pathway having a semi-circular embossed shape with one end located at least one of proximate a fracture initiation region of the score line and overlapping the fracture initiation region of the score line.
- In yet another aspect, the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform,
the container lid further comprising at least one raised feature adapted to engage with the incisor platform to propagate fracturing of the score line during rotation of the container lid sealing cap within the cap receiving socket. - In yet another aspect, the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform,
- the container lid further comprising at least one raised feature, adapted to engage with the incisor platform to propagate fracturing of the score line during rotation of the container lid sealing cap within the cap receiving socket,
- wherein at least of portion of the at least one raised feature is formed within the tear panel, providing rigidity to the tear panel.
- In yet another aspect, the container lid sealing cap further comprising an incisor platform formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall, the incisor extending downward from the incisor platform,
the container lid further comprising at least one raised feature, adapted to engage with the incisor platform to propagate fracturing of the score line during rotation of the container lid sealing cap within the cap receiving socket. - In yet another aspect, wherein at least one of:
- the incisor is adapted to fold the tear panel away from the cap receiving socket bottom wall, and
- an incisor platform is adapted to fold the tear panel away from the cap receiving socket bottom wall, wherein the incisor platform extends downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall.
- In yet another aspect, the container lid sealing cap further comprises a tamper indicator, wherein the tamper indicator is adapted to inform a consumer when a resealable container assembly comprising the container lid has been breached.
- In yet another aspect, the cap sealing element is one of:
- a) a sealing gasket carried by a bottom surface of the resealable container cap generally horizontally oriented traversing wall,
- b) a sealing gasket carried by an annular surface of the bottom surface of the resealable container cap generally horizontally oriented traversing wall, or
- c) a frustum shaped surface formed within the resealable container cap cylindrical sidewall.
- In yet another aspect, the incisor includes a leading edge, a trailing edge, and a bottom edge.
- In yet another aspect, the leading edge of the incisor is adapted to initiate a fracture of the score line during rotation of the sealing cap within the cap receiving socket.
- The cap may be included with the container or offered as a separate implement, being sold separately from the beverage container, and re-useable after washing.
- In yet another aspect, the cap can include a child's sip cup top configuration, enabling the beverage container be converted into a child's sip cup.
- In yet another aspect, the cap can include a baby bottle "nipple" formation to convert the beverage container into a baby bottle.
- In yet another aspect, the cap can include a baby bottle "nipple" formation to convert the beverage container into a baby bottle. In accordance with this variant, the contents of the container could be infant formula.
- In yet another aspect, the cap can include an axially actuated resealable sports bottle dispensing mechanism to convert the beverage container into a sports bottle.
- In yet another aspect, the cap can include a rotationally actuated resealable bottle dispensing mechanism. The rotationally actuated resealable bottle dispensing mechanism can be provided in a form factor of a spout.
- In yet another aspect, the cap can include a straw gasket for retaining a straw within a sealed cap. The cap can be a two piece configuration (resembling a mason jar styled two piece cap) enabling a straw aperture to remain in a rotational relationship with the dispensing aperture during assembly of the cap to the container lid.
- In yet another aspect, the two piece configuration includes an earn feature disposed therebetween, wherein the earn feature translates a rotation of an outer two piece cap configuration ring into an axial motion of the inner, non-rotating center sealing two piece cap component. The axial motion engages and maintains a seal between the cap and the container lid.
- In yet another aspect, the cap includes the straw gasket for retaining a straw within a sealed cap includes a pliant straw retention and sealing element. The pliant straw retention and sealing element is preferably designed having an elongated, tubular shape.
- In yet another aspect, the cap includes a projection that is adapted to extend into the dispensing aperture of the breached container lid.
- In yet another aspect, the cap includes a concentric projection that is adapted to extend into the dispensing aperture of the breached container lid.
- In yet another aspect, the cap includes an off-centered projection that is adapted to extend into the dispensing aperture of the breached container lid.
- In yet another aspect, the off-centered projection can be employed to maintain a rotational position of the two piece cap center component respective to the container lid during assembly of the two piece cap to the container lid.
- These and other aspects, features, and advantages of the present invention will become more readily apparent from the attached drawings and the detailed description of the preferred embodiments, which follow.
- The preferred embodiments of the invention will hereinafter be described in conjunction with the appended drawings provided to illustrate and not to limit the invention, in which:
-
FIG. 1 - 41 present views of examples which do not form part of the invention.Fig 1 presents a side isometric view introducing an exemplary container; -
FIG. 2 presents a side isometric exploded assembly view of the container introduced inFIG. 1 , wherein the illustration reveals features of a cap and a socket of the exemplary container; -
FIG. 3 presents a side isometric exploded assembly view of the container introduced inFIG. 1 , wherein the illustration additionally separates the lid and the exemplary container body; -
FIG. 4 presents a bottom isometric exploded assembly view of the container as shown inFIG. 2 ; -
FIG. 5 presents an enlarged, bottom isometric exploded assembly view of the lid and the cap of the exemplary container introduced inFIG. 1 ; -
FIG. 6 presents an enlarged, top and side isometric view of the cap originally introduced inFIG. 1 ; -
FIG. 7 presents an enlarged, bottom and side isometric view of the cap originally introduced inFIG. 1 ; -
FIG. 8 presents a top view of the exemplary container originally introduced inFIG. 1 , wherein the illustration includes the cap shown in an un-opened position; -
Fig 9 presents a top view of the exemplary container originally introduced inFIG. 1 , wherein the illustration excludes the cap to introduce projections inside the socket for engaging with cam surfaces of the cap; -
FIG. 10 presents an enlarged side elevation view of the cap, wherein the illustrations present details of the cam groove surfaces formed on a cylindrical sidewall of the cap; -
FIG. 11 presents an enlarged side elevation view of the cap, wherein the illustration presents the cap rotated ninety degrees (90°) from the illustration presented inFIG. 10 ; -
FIG. 12 presents a top isometric view of the resealable container lid, wherein the illustration excludes the cap to expose features of the socket; -
FIG. 13A presents a cross sectional elevation view of the cap in a sealed condition, following bottling, and prior to fracturing a score line to open the container; -
FIG. 13B presents a cross sectional elevation view of the cap, wherein the illustration demonstrates a first step in use, wherein the cap is rotated to open the container; -
FIG. 13C presents a cross sectional elevation view of the cap, wherein the illustration demonstrates a second step in use, wherein the cap is removed from the lid of the container enabling dispensing and consumption of contents stored within the container; -
FIG. 13D presents a cross sectional elevation view of the cap, wherein the illustration demonstrates a third step in use, wherein the cap is replaced upon the lid of the container sealing any remaining contents within the container; -
FIG. 14 presents an exemplary flow chart defining steps of manufacturing the resealable lid and the associated container; -
FIG. 15 presents an exemplary flow chart defining steps of manufacturing the resealable lid and the associated container according to a variant thereof; -
FIG. 16 presents a sectioned isometric view of the container, the section being taken alongsection line 16--16 ofFIG, 8 , wherein the illustration presents the container in an assembled, sealed configuration; -
FIG. 17 presents an isometric view of the containerFIG. 16 , the section being taken alongsection line 17--17 ofFIG, 8 ; -
FIG. 18 presents a side isometric view of a second exemplary container -
FIG. 19 , presents a top and side isometric exploded assembly view of the container originally introduced inFIG. 18 , wherein the illustration introduces the components of the container; -
FIG. 20 presents a bottom and side isometric partially exploded assembly view of the container originally introduced inFIG. 18 , wherein the cap is separated from the lid of the container to introduce features thereof,; -
FIG. 21 presents an enlarged, isometric top view of the lid, of the container originally introduced inFIG. 18 , wherein the lid is illustrated exclusive of the cap to introduced details thereof; -
FIG. 22 presents a bottom isometric exploded assembly view of the lid and the cap of the container originally introduced inFIG. 18 ; -
FIG. 23 presents an enlarged top isometric view of the cap of the container originally introduced inFIG. 18 ; -
FIG. 24 presents an enlarged bottom isometric view of the cap shown inFIG. 23 ; -
FIG. 25 presents a top plan view of the lid and the cap of the container originally introduced inFIG. 18 , wherein the lid and cap are shown assembled to one another; -
FIG. 26 presents a top plan view of the lid ofFIG. 25 , wherein the illustration excludes the cap to expose details of the socket; -
FIG. 27 presents a side elevation view of the cap of the container originally introduced inFig. 18 ; -
FIG. 28 presents a side elevation view of the cap ofFIG. 27 , wherein the cap is rotated ninety degrees (90°) from the view illustrated inFIG. 27 ; -
FIG. 29 presents a top isometric view of the cap and the lid of the container originally introduced inFIG. 18 , wherein the cap and the lid are shown as a subassembly, -
FIG. 30 presents an isometric, sectioned view of the lid and cap subassembly of the container originally introduced inFIG. 18 , wherein the section is taken alongsection line 30--30 ofFIG. 25 ; -
FIG. 31 presents a sectioned elevation view of the lid and cap subassembly of the container originally introduced inFIG. 18 , wherein the section is taken along section line 31-31 ofFIG. 25 ; -
FIG. 32 presents a sectioned elevation view of the lid and cap subassembly of the container originally introduced inFIG. 18 , wherein the section is taken along section line 30-30 ofFIG. 25 ; -
FIG. 33 presents a sectioned elevation view similar toFIG. 30 , wherein the cap is excluded from illustration, exposing features of the socket within the lid of the container originally introduced inFIG. 18 ; -
FIG. 34 presents a bottom isometric view of the lid and cap subassembly of the container originally introduced inFIG. 18 , wherein the tear panel is shown after the cap has been rotated to impart linear motion fracturing the score line and bending the tear panel into the container; -
FIG. 35 presents a sectioned elevation view of the lid and cap subassembly in an opened and resealed configuration, wherein the section is taken alongsection line 35--35 ofFIG. 34 . -
FIG.36 presents a bottom isometric view of an enhanced cap, wherein the enhanced cap is similar in all aspects to the previously illustrated caps, while introducing a soft plastic sealing ring to further enhance the sealing capabilities of the cap; -
FIG. 37 presents a cross sectioned elevation view of the cap originally introduced inFIG. 36 ; -
FIG. 38 presents a top plan view of another exemplary container lid, wherein the container lid is similar in all aspects to the previously illustrated lids, while introducing an alternative score line, wherein the alternative score line defines two tear panels for use during the opening process; -
FIG. 39 presents a top and side isometric view of another exemplary container, wherein the cap introduces a grip capable of using an implement, such as a coin and the like, enabling the consumer to impart a greater opening force thereto; -
FIG. 40 presents a sectioned top and side isometric view, wherein the illustration demonstrates the use of a coin or other implement in conjunction with a grip to impart a greater opening force by the consumer; -
FIG. 41 presents a top isometric view of another enhanced container lid, wherein the enhancement introduces a thinned initiation region for initiating a fracture of the score line; -
FIG. 42 presents a top isometric view introducing another embodiment of a container lid, wherein the illustrated embodiment includes a deeper container lid sidewall defining the socket, the container lid further introducing a series of ramps to create and propagate a fracture of a score line defining a tear panel and bending of the tear panel; -
FIG. 43 presents a bottom isometric view of the container lid introduced inFIG. 42 ; -
FIG. 44 presents a top plan view of the container lid introduced inFIG. 42 ; -
FIG. 45 presents a top isometric view introducing a cap for use with the container lid introduced inFIG. 42 , the cap being formed from a planar sheet of raw material, the exemplary cap introducing: a safety feature, a pair of finger grips, cam following lugs, and a formed offset incisor; -
FIG. 46 presents a bottom isometric view of the cap originally introduced inFIG. 45 , the cap further introducing: an annular sealing component; -
FIG. 47 presents a top plan view of the cap originally introduced inFIG. 45 ; -
FIG. 48 presents a top isometric exploded assembly view of the container lid originally introduced inFIG. 42 and the cap originally introduced inFIG. 45 ; -
FIG. 49 presents a bottom isometric exploded assembly view of the container lid originally introduced inFIG. 42 and the cap originally introduced inFIG. 45 ; -
FIG. 50 presents a top isometric assembly view of the container lid originally introduced inFIG. 42 and the cap originally introduced inFIG. 45 ; -
FIG. 51 presents a top plan assembly view of the container lid originally introduced inFIG. 42 and the cap originally introduced inFIG. 45 ; -
FIG. 52 presents a top plan view of the container lid introduced inFIG. 42 , the illustration introducing the series of functional segments associated with a travel path of a cam interface; -
FIG. 53 presents a side elevation view of the container lid introduced inFIG. 42 , the illustration detailing the series of functional segments associated with the travel path of the cam interface; -
FIG. 54 presents a side elevation exploded assembly view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration introducing a first step of aligning a cam follower of the cap with a cam tab relief section of the lid, the cam tab relief section being located between adjacent cams; -
FIG. 55 presents a top isometric exploded assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the section taken alongsection line 55--55 ofFIG. 51 ; -
FIG. 56 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the section taken alongsection line 55--55 ofFIG. 51 , introducing an initial step of assembly; -
FIG. 57 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration demonstrating a step of rotating the container lid in relation to the cap into a position compressing the sealing element and locating the cam followers beneath a cam detent functional segment; -
FIG. 58 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration demonstrating a step of further rotating the container lid in relation to the cap into a position where the sealing element decompresses as the cam followers transition past the cam detent functional segment into a cam sealing functional segment; -
FIG. 59 presents a side elevation view demonstrating the rotated relationship between the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the container lid and cap are positioned in accordance with the rotational relationship ofFIG. 58 ; -
FIG. 60 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the section taken alongsection line 60--60 ofFIG. 51 , introducing an arrangement of the cap and the container lid just prior to a first step in opening sequence, the illustration focusing on the utilization of an incisor to fracture a score line between a tear panel and a container lid bottom wall, the cap and the container lid shown separated for clarity; -
FIG. 61 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , in a similar configuration as introduced inFIG. 60 , wherein the cap and the container lid are illustrated just prior to the first step in opening sequence; -
FIG. 62 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a first subsequent step from the configuration as introduced inFIG. 60 , wherein the cap and the container lid are illustrated carrying out the first step in opening sequence; -
FIG. 63 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a second subsequent step from the configuration as introduced inFIG. 60 , wherein the cap and the container lid are illustrated carrying out the second step in opening sequence; -
FIG. 64 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a third subsequent step from the configuration as introduced inFIG. 60 , wherein the cap and the container lid are illustrated carrying out the third step in opening sequence; -
FIG. 65 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a fourth subsequent step from the configuration as introduced inFIG. 60 , wherein the cap and the container lid are illustrated carrying out the fourth step in opening sequence; -
FIG. 66 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the section taken along section line 66--66 ofFIG. 51 , introducing an arrangement of the cap and the container lid just prior to a first step in opening sequence, the illustration focusing on the utilization of ramps to aid in fracture of a score line by distributing the applied load across the tear panel and about the score line and folding of a tear panel away from the container lid bottom wall, the cap and the container lid shown separated for clarity; -
FIG. 67 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , in a similar configuration as introduced inFIG. 66 , wherein the cap and the container lid are illustrated just prior to the first step in opening sequence; -
FIG. 68 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a first subsequent step from the configuration as introduced inFIG. 66 , wherein the cap and the container lid are illustrated carrying out the first step in opening sequence; -
FIG. 69 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a second subsequent step from the configuration as introduced inFIG. 66 , wherein the cap and the container lid are illustrated carrying out the second step in opening sequence; -
FIG. 70 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a third subsequent step from the configuration as introduced inFIG. 66 , wherein the cap and the container lid are illustrated carrying out the third step in opening sequence; -
FIG. 71 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration presenting the same arrangement as shown inFIG. 60 , the section taken at 90 degrees to the view presented inFIG. 60 , the sealing element being slightly relaxed and used to retain the cap and container lid in a fixed rotational relationship with one another, wherein the section is taken alongsection line 55--55 ofFIG. 51 ; -
FIG. 72 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a first subsequent step from the configuration as introduced inFIG. 71 , wherein the cap and the container lid are illustrated carrying out the first step in opening sequence utilizing ramps to disengage the sealing element and assist in propagating the fracture of the score line; -
FIG. 73 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a second subsequent step from the configuration as introduced inFIG. 71 , wherein the cap and the container lid are illustrated carrying out the second step in opening sequence; -
FIG. 74 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a third subsequent step from the configuration as introduced inFIG. 71 , wherein the cap and the container lid are illustrated carrying out the third step in opening sequence; -
FIG. 75 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a fourth subsequent step from the configuration as introduced inFIG. 71 , wherein the cap and the container lid are illustrated carrying out the fourth step in opening sequence, wherein the tear panel is folded into the container; -
FIG. 76 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , wherein the illustration presents a fifth subsequent step from the configuration as introduced inFIG. 71 , wherein the cap and the container lid are illustrated carrying out the fifth step in opening sequence, wherein the cap can be removed from the container lid; -
FIG. 77 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration presenting the same arrangement as shown inFIG. 71 , the section view being taken alongsection line 55--55 ofFIG. 51 , the illustration focusing on an operation of an off-centered safety indicator, the off-centered safety indicator shown in an unopened, untampered, safe condition; -
FIG. 78 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 45 , the illustration presenting the same arrangement as shown inFIG. 77 , the illustration focusing on an operation of the off-centered safety indicator, the off-centered safety indicator shown capable of informing a user that a container lid has been opened; -
FIG. 79 presents a top isometric view introducing a variant of the cap introduced inFIG. 45 for use with the container lid introduced inFIG. 42 , wherein the safety indicator is centrally positioned on the cap; -
FIG. 80 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 79 , the section orientation being referenced bysection line 80--80 ofFIG. 79 , the illustration focusing on an operation of the centrally located safety indicator, the centrally located safety indicator shown in an unopened, untampered, safe condition; -
FIG. 81 presents a top isometric assembly section view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 79 , the illustration focusing on an operation of a safety indicator, the safety indicator shown capable of informing a user that a container lid has been opened; -
FIG. 82 presents a sectioned elevation view of the container lid introduced inFIG. 42 and the cap introduced inFIG. 79 assembled to one another in preparation for seaming onto a container body, the section orientation being referenced bysection line 82--82 ofFIG. 79 , the illustration focusing on an series of steps for seaming the container lid assembly onto the container body; -
FIG. 83 presents a sectioned elevation view of the container lid assembly process initiated inFIG. 82 , wherein the illustration presents a second subsequent step from the configuration introduced inFIG. 82 , wherein the container lid assembly is positioned onto the container body; -
FIG. 84 presents a sectioned elevation view of the container lid assembly process initiated inFIG. 82 , wherein the illustration presents a third subsequent step from the configuration introduced inFIG. 82 , wherein a seaming panel of the container lid and a seaming flange of the container body are rolled about one another; -
FIG. 85 presents a sectioned elevation view of the container lid assembly process initiated inFIG. 82 , wherein the illustration presents a fourth subsequent step from the configuration introduced inFIG. 82 , wherein the rolled seaming panel and seaming flange are compressed finalizing the seaming process; -
FIG. 86 presents a sectioned elevation view of the container assembly, the illustration being shown prior to flexure and deformation of the container lid assembly which occurs during a retort or purification process during bottling, the section orientation being referenced bysection line 80--80 ofFIG. 79 ; -
FIG. 87 presents a sectioned elevation view of the container assembly as introduced inFIG. 86 , wherein the illustration exemplifies the flexure and the deformation of the container lid assembly that occurs during the retort or purification process during bottling; -
FIG. 88 presents a magnified sectioned elevation view of the container lid assembly as shown inFIG. 87 , wherein the illustration magnifies the flexure and the deformation of the container lid assembly that occurs during the retort or purification process during bottling; -
FIG. 89 presents a sectioned elevation view of the container assembly as introduced inFIG. 86 , wherein the illustration exemplifies the resulting flexure and the deformation of the container lid assembly following the retort or purification process during bottling; -
FIG. 90 presents a sectioned elevation view exemplifying a stacking capability of a plurality of completed container assemblies; -
FIG. 91 presents a top isometric view introducing a container lid that is a variant to the container lid originally introduced inFIG. 42 , wherein the variant employs a modified pathway of the score line; -
FIG. 92 presents a bottom isometric view of the container lid originally introduced inFIG. 91 , the illustration introducing a sealant material disposed on an underside of the bottom wall, the sealant material being located opposite a fracture initiation point of the score line; -
FIG. 93 presents a top plan view of the container lid originally introduced inFIG. 91 ; -
FIG. 94 presents a bottom plan view of the container lid originally introduced inFIG. 91 ; -
FIG. 95 presents a top isometric view introducing a container lid that is a variant to the container lid originally introduced inFIG. 42 , wherein the variant employs locating features for registration during a modified process for forming the score line; -
FIG. 96 presents a bottom isometric view of the container lid originally introduced inFIG. 95 , the illustration introducing a domed metal forming feature located opposite the fracture initiation point of the score line; -
FIG. 97 presents a top plan view of the container lid originally introduced inFIG. 95 , the illustration presenting a first step of the modified process for forming the score line; -
FIG. 98 presents a top plan view of the container lid originally introduced inFIG. 95 , the illustration presenting a second step of the modified process for forming the score line, more specifically introducing the locating features for registration during a modified process for forming the score line; -
FIG. 99 presents a top plan view of the container lid originally introduced inFIG. 95 , the illustration presenting a third step of the modified process for forming the score line, more specifically introducing a first partial score line forming procedure; -
FIG. 100 presents a top plan view of the container lid originally introduced inFIG. 95 , the illustration presenting a fourth step of the modified process for forming the score line, more specifically introducing a second partial score line forming procedure; -
FIG. 101 presents a perspective view of two isometric elevation illustrations of a tooling punch and a corresponding tooling anvil for forming the locating elements in the container lid bottom wall; -
FIG. 102 presents a perspective view of the tooling anvil as originally introduced inFIG. 101 , and further introducing a tooling punch including a score knife for forming a first segment of the score line in the container lid bottom wall, the tooling employing the locating elements for alignment; -
FIG. 103 presents a perspective view of the tooling anvil as originally introduced inFIG. 101 , and further introducing a tooling punch including a score knife for forming a second segment of the score line in the container lid bottom wall, the tooling employing the locating elements for alignment; -
FIG. 104 presents a perspective view of the tooling anvil as originally introduced inFIG. 101 , and further introducing a tooling punch including a score knife for forming a complete score line in the container lid bottom wall, the tooling employing the locating elements for alignment; -
FIG. 105 presents an elevation section view detailing the forming action between the punch and the anvil when forming the score line passing through one of the two locating elements, the section orientation being referenced bysection line 105--105 ofFIG. 100 ; -
FIG. 106 presents a top isometric view introducing a variant of the container lid originally introduced inFIG. 95 , wherein the variant of the container lid includes a modification to registration features and the associated score fracture initiation configuration; -
FIG. 107 presents a bottom isometric view of the container lid originally introduced inFIG. 106 , the illustration introducing score lines employed to create a crease used to define the hinge; -
FIG. 108 presents a top plan view of the container lid originally introduced inFIG. 106 ; -
FIG. 109 is a top isometric section view detailing an end of an incisor well of the container lid originally introduced inFIG. 106 , the section orientation being referenced bysection line 109--109 ofFIG. 108 ; -
FIG. 110 is a top isometric section view sectioning the end of the incisor well of the container lid originally introduced inFIG. 106 , focusing upon the actual incising region, the section orientation being referenced bysection line 110--110 ofFIG. 108 ; -
FIG. 111 is a top isometric section view sectioning the incisor well of the container lid originally introduced inFIG. 106 , wherein the section details the score line thinned initiation region, the section orientation being referenced bysection line 111--111 ofFIG. 108 ; -
FIG. 112 is a top isometric section view of an opened resealable container assembly, further detailing a folded tear panel and a folded thinned initiation region, the section being oriented similarly tosection line 111--111 ofFIG. 108 ; -
FIG. 113 presents a top isometric view introducing a variant of the container lid originally introduced inFIG. 42 , wherein the variant of the container lid is adapted to retain the cap and container lid as an assembly throughout the use thereof; -
FIG. 114 presents a bottom isometric view of the container lid introduced inFIG. 106 ; -
FIG. 115 presents a top plan view of the container lid introduced inFIG. 113 ; -
FIG. 116 presents a top isometric view introducing a cap for use with the container lid introduced inFIG. 113 , the cap being formed from a planar sheet of raw material, the exemplary cap is similar to the cap introduced inFIG. 45 , further comprising a drink dispensing aperture; -
FIG. 117 presents a bottom isometric view of the cap originally introduced inFIG. 116 , the cap further introducing: an offset sealing component; -
FIG. 118 presents a top plan view of the cap originally introduced inFIG. 116 ; -
FIG. 119 presents a top isometric exploded assembly view of the container lid originally introduced inFIG. 113 and the cap originally introduced inFIG. 116 ; -
FIG. 120 presents a bottom isometric exploded assembly view of the container lid originally introduced inFIG. 113 and the cap originally introduced inFIG. 116 ; -
FIG. 121 presents a top isometric assembly view of the container lid originally introduced inFIG. 113 and the cap originally introduced inFIG. 116 , the assembly shown in a closed and sealed configuration; -
FIG. 122 presents a top plan assembly view of the container lid originally introduced inFIG. 113 and the cap originally introduced inFIG. 116 , the assembly shown having the cap rotated to an open, dispensing configuration; -
FIG. 123 presents an isometric elevation section view of the container assembly including the container lid assembly introduced inFIG. 119 , the section orientation being referenced bysection line 123--123 ofFIG. 122 , the assembly shown having the cap rotated to an open, dispensing configuration; -
FIG. 124 presents a top plan assembly view of the container lid originally introduced inFIG. 113 and the cap originally introduced inFIG. 116 , the assembly shown in the closed and sealed configuration; -
FIG. 125 presents an isometric elevation section view of the container assembly introduced inFIG. 124 , the section orientation being referenced bysection line 125--125 ofFIG. 124 , the assembly shown with the cap rotated to a closed and sealed configuration; -
FIG. 126 presents a side elevation view of the container lid introduced inFIG. 113 , the illustration introducing the series of functional segments associated with a travel path of a cam interface, which includes a downturn at a distal end of the cam interface, wherein the downturn retains the cap to the container lid; -
FIG. 127 presents a top isometric view introducing another variant of the container lid introduced inFIG. 42 , the variant is adapted to employ a tool rotating in a direction that is opposite to the direction of the cap introduced in the steps ofFIGS. 60-65 for fracturing the score line and opening the tear panel from the bottom wall of the container lid; -
FIG. 128 presents a bottom isometric view of the variant of the container lid introduced inFIG. 127 ; -
FIG. 129 presents a top plan view of the variant of the container lid introduced inFIG. 127 ; -
FIG. 130 presents a top isometric view introducing a tool for opening the container lid introduced inFIG. 127 , the tool being comprising multiple incisors for fracturing the score line defining the tear panel of the container lid and multiple dispensing apertures for dispensing a volume stored within the container, the multiple, repeated features enabling multiple assembly orientations between the cap and the container lid; -
FIG. 131 presents a bottom isometric view of the tool introduced inFIG. 130 ; -
FIG. 132 presents a top plan view of the tool introduced inFIG. 130 , the illustration presenting the tool installed onto the container assembly having one of the multiple dispensing apertures in alignment with the dispensing aperture of the container lid; -
FIG. 133 presents a top isometric view of the tool introduced inFIG. 130 being assembled to the container assembly as configured inFIG. 124 ; -
FIG. 134 presents a top isometric view of the container assembly comprising the container lid originally introduced inFIG. 127 , the container assembly shown having the tear panel fractured from the container lid bottom wall and bent into a dispensing configuration; -
FIG. 135 presents a top isometric section view of the container assembly, the container assembly being shown in the configuration presented inFIG. 134 , the section being taken alongsection line 135--135 ofFIG. 132 ; -
FIG. 136 presents a top isometric view introducing yet another variant of the container lid introduced inFIG. 42 , the variant of the container lid is adapted to employ a sealing configuration located above the cam tracks; -
FIG. 137 presents a bottom isometric view of the variant of the container lid introduced inFIG. 136 ; -
FIG. 138 presents a top isometric view introducing yet another variant of the cap introduced inFIG. 45 for use with the container lid introduced inFIG. 136 , the variant of the cap is adapted to employ a sealing configuration located above the cam followers; -
FIG. 139 presents a bottom isometric view of the cap originally introduced inFIG. 138 , the cap further introducing: an annular sealing component; -
FIG. 140 presents a top isometric exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 ; -
FIG. 141 presents a bottom isometric exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 ; -
FIG. 142 presents a top isometric assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 ; -
FIG. 143 presents a sectioned elevation exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 , the section view taken alongsection line 143--143 ofFIG. 142 ; -
FIG. 144 presents a sectioned elevation assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 , the section view taken alongsection line 143--143 ofFIG. 142 ; -
FIG. 145 presents a sectioned isometric top exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 , the section view taken alongsection line 143--143 ofFIG. 142 ; -
FIG. 146 presents a sectioned isometric top assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 138 , the section view taken alongsection line 143--143 ofFIG. 142 ; -
FIG. 147 presents a top isometric view introducing yet another variant of the container lid introduced inFIG. 136 , the variant of the container lid is exclusive of a container lid bottom wall; -
FIG. 148 presents a bottom isometric view of the variant of the container lid introduced inFIG. 147 ; -
FIG. 149 presents a top isometric view introducing a variant of the cap introduced inFIG. 138 for use with the container lid introduced inFIG. 147 , the variant of the cap is exclusive of an incisor and exclusive a probe on the safety indicator; -
FIG. 150 presents a bottom isometric view of the cap originally introduced inFIG. 149 ; -
FIG. 151 presents a top isometric exploded assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 ; -
FIG. 152 presents a bottom isometric exploded assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 ; -
FIG. 153 presents a top isometric assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 ; -
FIG. 154 presents a bottom isometric assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 ; -
FIG. 155 presents a sectioned elevation exploded assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 , the section view taken alongsection line 155--155 ofFIG. 153 ; -
FIG. 156 presents a sectioned elevation assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 , the section view taken alongsection line 155--155 ofFIG. 153 ; -
FIG. 157 presents a sectioned isometric top exploded assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 , the section view taken alongsection line 155--155 ofFIG. 153 ; -
FIG. 158 presents a sectioned isometric top assembly view of the container lid originally introduced inFIG. 147 and the cap originally introduced inFIG. 149 , the section view taken alongsection line 155--155 ofFIG. 153 ; -
FIG. 159 presents a top isometric view introducing a variant of the cap introduced inFIG. 138 for use with the container lid introduced inFIG. 136 , the variant introducing finger grip cavities, the incisor being formed within a bottom wall of one of the finger grip cavities; -
FIG. 160 presents a bottom isometric view of the cap originally introduced inFIG. 159 ; -
FIG. 161 presents a top isometric exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 ; -
FIG. 162 presents a bottom isometric exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 ; -
FIG. 163 presents a top isometric assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 ; -
FIG. 164 presents a sectioned elevation exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 , the section view taken alongsection line 164--164 ofFIG. 163 ; -
FIG. 165 presents a sectioned elevation assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 , the section view taken alongsection line 164--164 ofFIG. 163 ; -
FIG. 166 presents a sectioned top isometric exploded assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 , the section view taken alongsection line 164--164 ofFIG. 163 ; -
FIG. 167 presents a sectioned top isometric assembly view of the container lid originally introduced inFIG. 136 and the cap originally introduced inFIG. 159 , the section view taken alongsection line 164--164 ofFIG. 163 ; -
FIG. 168 presents a top isometric view introducing a variant of the cap introduced inFIG. 45 for use with the container lid introduced inFIG. 42 , the variant introducing protruding finger grips which include an engaging flange; -
FIG. 169 presents a bottom isometric view of the cap originally introduced inFIG. 168 ; -
FIG. 170 presents a top isometric assembly view of the container lid originally introduced inFIG. 42 and the cap originally introduced inFIG. 168 ; -
FIG. 171 presents a top isometric view introducing a resealable container cap torque enhancing tool for use with the cap originally introduced inFIG. 168 ; -
FIG. 172 presents a bottom isometric view of the resealable container cap torque enhancing tool originally introduced inFIG. 171 ; -
FIG. 173 presents an elevation partially exploded assembly section view of the resealable container cap torque enhancing tool originally introduced inFIG. 171 , the tool being shown prior to being coupled to the cap, wherein the cap is shown assembled to the container lid, the section being taken alongsection line 173--173 ofFIG. 170 ; -
FIG. 174 presents an elevation partially assembly section view of the resealable container cap torque enhancing tool originally introduced inFIG. 171 , the tool being shown coupled to the cap, wherein the cap is shown assembled to the container lid, the section being taken alongsection line 173--173 ofFIG. 170 ; -
FIG. 175 presents an isometric elevation partially exploded assembly section view of the resealable container cap torque enhancing tool originally introduced inFIG. 171 , the tool being shown prior to coupled to the cap, wherein the cap is shown assembled to the container lid, the section being taken alongsection line 173--173 ofFIG. 170 ; -
FIG. 176 presents an isometric partially assembly section view of the resealable container cap torque enhancing tool originally introduced inFIG. 171 , the tool being shown coupled to the cap, wherein the cap is shown assembled to the container lid, the section being taken alongsection line 173--173 ofFIG. 170 ; -
FIG. 177 presents a top isometric view of a first exemplary accessory for use with the container lid, the accessory being a cap and drinking straw assembly, the cap including a fixed inner cap liner and a rotatable outer cap component for securing the cap assembly to the container lid; -
FIG. 178 presents a bottom isometric view of the cap and drinking straw assembly originally introduced inFIG. 177 ; -
FIG. 179 presents a top isometric view of the cap and drinking straw assembly originally introduced inFIG. 177 shown as secured to the container assembly; -
FIG. 180 presents a top isometric section view of the cap and drinking straw assembly, the illustration detailing the functions of the fixed inner cap liner and a rotatable outer cap component, the exemplary cap and drinking straw assembly being shown prior to being secured to the container assembly, the section being taken alongsection line 180--180 ofFIG. 177 ; -
FIG. 181 presents a top isometric section view of the cap and drinking straw assembly as shown inFIG. 180 , the exemplary cap and drinking straw assembly being shown secured to the container assembly, the section being taken alongsection line 180--180 ofFIG. 177 ; -
FIG. 182 presents a top isometric view of a second exemplary accessory for use with the container lid, the accessory including a baby nipple; -
FIG. 183 presents a top isometric view of a third exemplary accessory for use with the container lid, the accessory including a spill-proof children's cap; -
FIG. 184 presents a top isometric view of a fourth exemplary accessory for use with the container lid, the accessory including a resealable sports bottle dispensing mechanism; -
FIG. 185 presents a top isometric view of a sixth exemplary accessory for use with the container lid, the accessory including a rotating resealable fluid dispensing spout, the rotating resealable fluid dispensing spout being shown in a closed configuration; and -
FIG. 186 presents a top isometric view of the rotating resealable fluid dispensing spout originally introduced inFIG. 185 , the rotating resealable fluid dispensing spout being shown in an open configuration. - The following detailed description is merely exemplary in nature and is not intended to limit the described embodiments or the application and uses of the described embodiments. As used herein, the word "exemplary" or "illustrative" means "serving as an example, instance, or illustration." Any implementation described herein as "exemplary" or "illustrative" is not necessarily to be construed as preferred or advantageous over other implementations. All of the implementations described below are exemplary implementations provided to enable persons skilled in the art to make or use the embodiments of the disclosure and are not intended to limit the scope of the disclosure, which is defined by the claims. In other implementations, well-known features and methods have not been described in detail so as not to obscure the invention. For purposes of description herein, the terms "upper", "lower", "left", "right", "front", "back", "vertical", "horizontal", and derivatives thereof shall relate to the invention as oriented in
FIG. 1 . Furthermore, there is no intention to be bound by any expressed or implied theory presented in the preceding technical field, background, brief summary or the following detailed description. It is also to be understood that the specific devices and processes illustrated in the attached drawings, and described in the following specification, are simply exemplary embodiments of the inventive concepts defined in the appended claims. Hence, specific dimensions and other physical characteristics relating to the embodiments that may be disclosed herein are not to be considered as limiting, unless the claims expressly state otherwise. - A
container 100, exemplified as a beverage container inFIGS. 1 through 12 , includes a containercylindrical sidewall 202, a container closed container closedbottom wall 204, integrally formed with the containercylindrical sidewall 102 and aresealable container lid 110 connected to the containercylindrical sidewall 102 at the end opposite the container closed container closedbottom wall 204. Thecontainer 100 is a beverage container commonly referred to as a can, wherein the container closed container closedbottom wall 204 and the containercylindrical sidewall 102 are formed from a single piece of aluminum material, using otherwise known processes. The aluminum material is a lightweight aluminum alloy commonly used in the beverage can industry. Theresealable container lid 110 is preferably made of the same lightweight aluminum alloy material, and is joined at the upper end of the sidewall through likewise known processes. Theresealable container lid 110 includes acap receiving socket 130 which extends downwardly into thecontainer 100 from a resealable container lidupper surface 114. Thecap receiving socket 130 is formed near a peripheral edge or lip of theresealable container lid 110 as is customary in the art, to allow drinking from thecontainer 100. Aresealable container cap 160 fits into thecap receiving socket 130 and engages same in a manner described in more detail below. The containercylindrical sidewall 202 of thecontainer 100 is preferably tapered at both the upper and lower ends to provide greater structural integrity, particularly for use with pressurized contents, such as when used for carbonated beverages. - The
resealable container lid 110 has an outer perimeter that is connected to the upper open end of the containercylindrical sidewall 102 of the beverage container, using known processes, to form an enclosure which contains a beverage. Beverages contained therein are not limited, but include carbonated or non-carbonated beverages, and could also include foodstuffs, and non-edible products. Thecap receiving socket 130 is integrally formed in the resealable container lidupper surface 114 of theresealable container lid 110 and includes a cap receiving socketcylindrical sidewall 132, which extends downwardly into thecontainer 100, and a cap receivingsocket bottom wall 134. A cap receiving socket bottom panelcircular score line 136 is formed in the cap receivingsocket bottom wall 134 in order to create a cap receiving socket bottom panel tear panel 138 (seeFIGS. 13B ,13C and 13D ) which is pushed into the can when the can is opened. In the opened position, the cap receiving socket bottompanel tear panel 138 remains connected to the cap receivingsocket bottom wall 134 due to the fact that the cap receiving socket bottom panelcircular score line 136 does not make a complete circle or loop; atear panel hinge 139 is created where the cap receivingsocket bottom wall 134 is not scored (seeFIG. 5 ). - As seen in figures, the
resealable container cap 160 is sized to fit substantially within thecap receiving socket 130, and includes a flat annular capbottom sealing surface 167 which is disposed between the cam shaped capbottom surface 166 and the cap's resealable container capcylindrical sidewall 162. InFIG. 9 , the cap receivingsocket bottom wall 134 of thecap receiving socket 130 may include a cap receiving socket bottom panel flatannular surface 140 which is disposed between the cap receiving socketcylindrical sidewall 132 and the cap receiving socket bottom panelcircular score line 136. When assembled and in the "resealed" position shown inFIG. 13D , the flat annular capbottom sealing surface 167 of theresealable container cap 160 comes into contact with the cap receiving socket bottom panel flatannular surface 140 of the bottom of thecap receiving socket 130 to effectively reseal thecontainer 100. - The
resealable container lid 110 has a shallow, resealable container lid uppersurface reinforcement formation 118 which serves two purposes. First, the resealable container lid uppersurface reinforcement formation 118 acts as a stiffening structure to provide greater strength to theresealable container lid 110. This is particularly advantageous if theresealable container lid 110 is to be made of the same aluminum alloy as the containercylindrical sidewall 102 and container closed container closedbottom wall 204 of thecontainer 100. Secondarily, the resealable container lid uppersurface reinforcement formation 118 adds a familiar look to consumers who are accustomed to the prior art beverage containers employing a pull tab that is operated first in an opening direction, and then secondly, in a seated direction, where the hinged pull tab is positioned after opening. - As shown in
FIGS. 2 ,3 and5 , the cap receiving socketcylindrical sidewall 132 of thecap receiving socket 130 has a plurality of equally spaced socket sidewallcam engaging projections 150, disposed substantially on the same plane and being integrally formed in the sidewall 22.FIG. 5 shows one protrusion as an indentation or recess, sinceFIG. 5 shows the outercylindrical sidewall 132 of theresealable container lid 110, whereas the other figures show the inner cap receiving socketcylindrical sidewall 132 of theresealable container lid 110. The socket sidewallcam engaging projections 150 cooperate with theresealable container cap 160 in a manner described below in order to open and reseal thecontainer 100. - Referring to
FIGS. 5-7 , theresealable container cap 160 has a radially extendingcap skirt 170 which acts as a tamper proof indicator. As seen inFIG. 1 , prior to opening thecontainer 100, the radially extendingcap skirt 170 seats flush with the resealable container lid planar upper surfaceouter segment 119 of theresealable container lid 110. The skirt is integrally formed with theresealable container cap 160, which is preferably made of plastic material. The radially extendingcap skirt 170 includes a series of radially extending cap skirtfrangible score lines 172, extending radially outwardly, which are operable to break during the opening operation of the can. The breaking of the score lines 172 is effected by theskirt 170 being driven downwardly as theresealable container cap 160 is twisted or rotated and thereby advances downwardly into thecap receiving socket 130. Opening of the beverage container will thus be evident by thebroken score lines 172 of the radially extendingcap skirt 170, and preferably, by the sections of the radially extendingcap skirt 170 that are formed by thebroken score lines 172 extending at an angle upwardly, thus extending radially outwardly and radially upwardly. - The
resealable container cap 160 is preferably made of a molded plastic material, is sized to fit substantially within thecap receiving socket 130, and includes a cam shaped capbottom surface 166 formed at the lower or inner end of a resealable container capcylindrical sidewall 162. The cam shaped capbottom surface 166 may include an integrally formed sharp or pointed offset projectingincisor 168 disposed offset to the center axis of theresealable container cap 160 and extending downwardly into thecap receiving socket 130 when theresealable container cap 160 is assembled in thecap receiving socket 130. When assembled, the offset projectingincisor 168 is disposed immediately above the cap receiving socket bottom panelcircular score line 136, so that when theresealable container cap 160 moves downwardly during opening of thecontainer 100 offset projectingincisor 168 punctures the can at the beginning of the cap receiving socket bottom panelcircular score line 136, next to thetear panel hinge 139, then progressively propagates the rupture along the cap receiving socket bottom panelcircular score line 136 to its terminus on the opposite end of thetear panel hinge 139. - The cam shaped cap
bottom surface 166 may also include a centered projectingincisor 169 disposed on the center axis of theresealable container cap 160 and extending downwardly into thecap receiving socket 130 when theresealable container cap 160 is assembled in thecap receiving socket 130. When assembled, theprojection 169 is disposed immediate above a cap receiving socket bottom panel centered "X" shapedscore line 142, so that when theresealable container cap 160 moves downwardly during opening of the container, the projection punctures the can at the cap receiving socket bottom panel centered "X" shapedscore line 142, thereby relieving internal pressure and assisting in the rupturing of the cap receiving socket bottom panelcircular score line 136 by the offset projectingincisor 168. - The opening operation of the
container 100 is made possible by forming a cam structure between thecap receiving socket 130 and theresealable container cap 160. In particular, cam groove surfaces 180 are formed in the resealable container capcylindrical sidewall 162 of theresealable container cap 160. The socket sidewallcam engaging projections 150 are fitted into and engage the cam groove surfaces 180 such that when theresealable container cap 160 is hand-twisted by the consumer, rotational motion of theresealable container cap 160 is converted into linear motion of theresealable container cap 160 thus driving the cap in a downward direction relative to thecap receiving socket 130. As theresealable container cap 160 moves downwardly, the cap receiving socket bottom panelcircular score line 136 is ruptured by the offset projectingincisor 168, then progressively propagates the rupture along the cap receiving socket bottom panelcircular score line 136 to its terminus. An optional cap receiving socket bottom panel centered "X" shapedscore line 142 may be ruptured by the centered projectingincisor 169 immediately before the cap receiving socket bottom panelcircular score line 136 is ruptured by the offset projectingincisor 168, to thereby relieve internal pressure and assist in the rupture of the cap receiving socket bottom panelcircular score line 136 by the offset projectingincisor 168. - As shown in
FIG. 8 , theresealable container cap 160 includes a resealable containercap grip element 174 for the consumer to grab when ready to open the beverage container, and also, as described below, for resealing the beverage container after opening. Depending on the contour of the cam surfaces and their direction of orientation, the cap can be rotated in one direction, preferably clockwise for opening, and then in the opposite direction, counterclockwise, to remove the cap during consumption of beverage, and then again back to the can-opening direction for resealing the beverage container if the contents are not entirely consumed. Symmetry of disposition of the three socket sidewallcam engaging projections 150 is shown inFIG. 9 , wherein the three socket sidewallcam engaging projections 150 are located at approximately equal angular intervals of 120 degrees. Each projection engages a correspondingcam groove surface 180, more specifically, a firstcam groove surface 181, a secondcam groove surface 182, and a thirdcam groove surface 183. As shown, the resealable container capcylindrical sidewall 162 of theresealable container cap 160 would be contoured, as by forming grooves, to form three cam groove surfaces 181, 182, 183. The cam surfaces or features 181, 182, 183 are shaped and sloped in a manner designed to cause theresealable container cap 160 to advance into an opening position without more than a quarter to half a turn, and as measured in radians, this would be no more than 1 to 2 radians. The number of projections and cam elements can be varied, although three provides a balance between cost and effectiveness. - The cap resealable container cap
cylindrical sidewall 162 includes three equally spaced cam groove surfaces 181, 182 and 183, as best shown inFIGS. 10 and 11 . The cam groove surfaces 181 and 182 and the resealable containercap grip element 174 extending across the page are best illustrated inFIG. 10 . The resealable container capbottom surface 164 of theresealable container cap 160 includes the centered projectingincisor 169, acting as a piercing element, which punctures the cap receiving socket bottom panel centered "X" shapedscore line 142, and it further includes an offset projectingincisor 168 which also acts as a piercing element. Theprojection 168 is designed and shaped to impinge on the cap receivingsocket bottom wall 134 of thecap receiving socket 130 inside and juxtaposed the cap receiving socket bottom panelcircular score line 136. As theresealable container cap 160 is rotated, from the unopened position shown inFIG. 10 , the cam structure turns the rotational movement to translational movement, thus moving the cap inwardly. As theresealable container cap 160 moves inwardly, the offset projectingincisor 168 rotates until, preferably, it reaches the position shown inFIG. 11 , wherein a portion of the cap receivingsocket bottom wall 134 breaks away and is pushed inwardly to form the cap receiving socket bottompanel tear panel 138 that remains hinged to the cap receivingsocket bottom wall 134 by virtue of the cap receiving socket bottom panelcircular score line 136 not extending to a complete loop. The offset projectingincisor 168 starts at the beginning of the cap receiving socket bottom panelcircular score line 136 and only travels ninety degrees (90°). Thus, offset projectingincisor 168 will only have traveled a portion of the length. What pushes the cap receiving socket bottompanel tear panel 138 out of the way is the body of the cam shaped capbottom surface 166 going past the plane of thecap receiving socket 130 cap receivingsocket bottom wall 134. Notice that the cam shaped capbottom surface 166 protrudes out from the flat annular capbottom sealing surface 167. - Cross sectional views of the cap moving between opening and resealing positions are shown in
FIGS. 13A through 13D . InFIG. 13A , theresealable container cap 160 is shown in cross section prior to opening the beverage container. Thus, the cap receivingsocket bottom wall 134 of thecap receiving socket 130, the cap receiving socketcylindrical sidewall 132 of thecap receiving socket 130, and the resealable container lidupper surface 114 form theresealable container lid 110. Theresealable container cap 160 is shown in the storage position, i.e., pre-opening of the can, inFIG. 13A , wherein the cap receivingsocket bottom wall 134 is not punctured and the contents of thecontainer 100 are air tight for potentially long term storage. The resealable containercap grip element 174 is shown in a first, unopened position. In this position the flat annular capbottom sealing surface 167 of theresealable container cap 160 is spaced above the socket cap receivingsocket bottom wall 134, but the offset projectingincisor 168 is close to or in slight contact with the cap receiving socket bottom panelcircular score line 136. Similarly, if a second centered projectingincisor 169 is employed at the center of the lower end of theresealable container cap 160, it is also disposed in close proximity to the score line 44 if not slightly touching. - The
resealable container cap 160 is rotated clockwise approximately ninety degrees (90°), as shown inFIG. 13B . Engagement between the cam groove surfaces 180 and the socket sidewallcam engaging projections 150 translates theresealable container cap 160 downwardly by a distance sufficient to cause the offset projectingincisor 168 to rupture the cap receiving socket bottom panelcircular score line 136 as the projection moves along the inner side of the score line. The rupture creates a cap receiving socket bottompanel tear panel 138 which is pushed by the offset projectingincisor 168 into the interior of thecontainer 100 by rotating downwardly about atear panel hinge 139, wherein thetear panel hinge 139 is formed spanning between opposite ends of the cap receiving socket bottom panelcircular score line 136. The opposite ends of thescore line 136 are positioned to locate and define a pivot axis of thetear panel hinge 139 for the cap receiving socket bottompanel tear panel 138. - After the cap receiving socket bottom
panel tear panel 138 is formed, and theresealable container cap 160 is disposed at its innermost position relative to the socket, the consumer would then rotate theresealable container cap 160 counterclockwise, preferably by turning the resealable containercap grip element 174. Theresealable container cap 160 is shown inFIG. 13C being separated from thecontainer 100, and can be pocketed by the consumer, or placed in a location for easy access in case the consumer chooses not to consume the entire contents of thecontainer 100. As evidence that the beverage container has been opened, the radially extendingcap skirt 170 may be angled upwardly as a result of the frangible score lines being broken, so that individual sections of the skirt are now biased in an upward direction. Also, when rotating counterclockwise, the cam groove surfaces 180 and the socket sidewallcam engaging projections 150 will eventually separate, allowing theresealable container cap 160 to be free of thecontainer 100. - In the event that the consumer wishes to reseal the
container 100, and as shown inFIG. 13D , theresealable container cap 160 is brought into contact with thecap receiving socket 130 by the consumer, by bringing the cam groove surfaces 180 into engagement with the socket sidewallcam engaging projections 150. Once this occurs, clockwise rotation will cause theresealable container cap 160 to translate downwardly until a sealing, seating arrangement is made between the cap receiving socket bottom panel flatannular surface 140 of the socket cap receivingsocket bottom wall 134 and the flat annular capbottom sealing surface 167 of theresealable container cap 160, thereby keeping the contents of thecontainer 100 fresh and safe from foreign contaminants. The seal will retain carbonation when the contents are carbonated. - The
resealable container cap 160 can be removed again and again to gain access to the contents of the beverage container until all contents are consumed. There is no limit to the type of beverages or other contents that can be housed in thecontainer 100, but most commonly "canned" beverages include sodas, beer, juices, etc. It is also within the scope of the present invention that the contents of the containers could be foodstuff, and non-consumable liquids, gels, powders, and the like. - The cam means disclosed herein can be used for caps that provide other functionality for the
container 100. For example, a variation of theresealable container cap 160 would be one that could include a passageway extending through theresealable container cap 160 with drinking implements formed at the upper, outer end, such as a child's sip cup, which would allow a child to drink from thecontainer 100 without spilling. Alternatively, theresealable container cap 160 could be formed with an infant nipple for feeding formula, juice, water or other beverages suitable for infants. When using drinking implements such as sip cup and baby bottle nipples, aresealable container cap 160 would nonetheless have to be employed for opening the container, and then a second "cap" could be used for consuming the contents. In any event, the opening caps and drinking implements could be sold separately from thecontainer 100, as long as thecontainer 100 included the socket sidewallcam engaging projections 150 formed in the cap receiving socketcylindrical sidewall 132 of thecap receiving socket 130. - Although a wide range of plastic materials could be used to form the
resealable container cap 160, other materials could be used, including ceramics and metals. However, for harder materials such as these, it may be necessary to position a gasket between the opposingannular surfaces socket 130 and thecap 160, respectively to ensure the best possible seal. - While the examples described herein place the
socket 130 andcap 160 in the top of thecontainer 100, it is possible to have the same opening and resealing structures in the container closedbottom wall 104 of thecontainer 100. Also, while acylindrical container 100 has been described herein, other shapes of containers, e.g., oval, rectangular, hexagonal, octagonal, and the like, could also be used. - The preferred shape of the frangible cap receiving socket bottom panel
circular score line 136 in the bottom of thecap receiving socket 130 is circular, with a closed end and an open end. The inside score (shallower line) terminates in a curve arcing towards the socket's cylindrical sidewall to prevent loss of tear panel into the container. The outside score line (deeper line) terminates in circular form spaced from the inside score line. There is a hinged portion of the tear panel that keeps the panel in contact with the lid once ruptured, as described above. - The offset projecting
incisor 168, described as a piercing element, is intended to be a single point of contact that moves deeper, and radially along the inside of the cap receiving socket bottom panelcircular score line 136 while theresealable container cap 160 is rotated. The offset projectingincisor 168 may also include additional areas to further drive the cap receiving socket bottompanel tear panel 138 deeper into the container. A single point will apply more force to breaking the cap receiving socket bottom panelcircular score line 136 defining the cap receiving socket bottompanel tear panel 138 but additional areas acting in a secondary fashion could help in the opening process. - The socket sidewall
cam engaging projections 150 used in thecap receiving socket 130 allow the use of a very shallow socket 130 (as compared to threaded designs) and still provide positive opening, closing and sealing of theresealable container cap 160. The design of the socket sidewallcam engaging projections 150 also provides for positive stops for open, closed and removable cap positions. As seen inFIGS. 10 and 11 , eachcam groove surface groove surface segment 184, a cam groove surfacelower detent 186 and a cam groove surfaceupper detent 188. Once assembled, the three socket sidewallcam engaging projections 150 are respectively positioned so that the detents prevent theresealable container cap 160 from becoming disconnected from thecap receiving socket 130, during transport or storage, and from backing off a sealing position, when theresealable container cap 160 is positioned in a resealing position. This can be illustrated with reference toFIG. 11 , where the socket sidewallcam engaging projection 150 is shown as a broken line circle. When theresealable container cap 160 is in the unopened position, each socket sidewall cam engaging projection 150 (shown as a broken line circle) will be positioned next to the cam groove surfacelower detent 186. The cam groove surfacelower detent 186 prevents theresealable container cap 160 from turning to a position where the socket sidewallcam engaging projection 150 is disengaged from the firstcam groove surface 181, as for example, if vibration or the like caused theprojection 150 to pass out of the sloped camgroove surface segment 184. Similarly, when theresealable container cap 160 is intentionally rotated clockwise, to either open or reseal the beverage container, the projection passes over the cam groove surfaceupper detent 188 to become locked by interference fit between the cam groove surfaceupper detent 188 and the socket sidewallcam engaging projection 150. The cam groove surfaceupper detent 188 thus prevents theresealable container cap 160 from inadvertently backing out from the sealing position. Thus, theresealable container cap 160 is held in two positions by thedetents resealable container cap 160 is equal to the distance between the resealing surface on theresealable container cap 160 and the associated surface of the cap receivingsocket bottom wall 134. The transport retaining detent, or cam groove surfacelower detent 186 restricts the rotary movement of theresealable container cap 160 due to the interference between the stabilizing radially extendingcap skirt 170 and the flat upper rim of theresealable container cap 160, as well as the interference between the piercing element or offset projectingincisor 168 and the socket cap receiving socket bottompanel tear panel 138. - When turning the
resealable container cap 160 in the opening direction, e.g., clockwise, the socket sidewallcam engaging projections 150 on the socket's cylindrical sidewall follow the sloped camgroove surface segments 184 of the cam groove surfaces 180, which form gradual ramps, converting the rotary motion of theresealable container cap 160 to a linear or translational movement, which drives theresealable container cap 160 into the interior of thecontainer 100. This engages the offset projectingincisor 168 against the cap receiving socket bottompanel tear panel 138 and provides the force necessary to rupture the cap receiving socket bottom panelcircular score line 136. Further turning of theresealable container cap 160 in the opening direction progressively pushes the cap receiving socket bottompanel tear panel 138 out of the way and into the interior of thecontainer 100, until the socket sidewallcam engaging projections 150 reach the closed position of the cam groove surfaceupper detents 188. A slightly higher point on the sloped camgroove surface segment 184 of the cam groove surfaces 180 just before the closed position provides the resistance necessary to keep theresealable container cap 160 from backing out. - When turning the
resealable container cap 160 opposite the opening direction, the socket sidewallcam engaging projections 150 follow the same route to their starting positions but after opening, the socket sidewallcam engaging projections 150 can pass over the transport retaining or cam groove surfacelower detents 186 because the stabilizing radially extendingcap skirt 170 and the cap receiving socket bottompanel tear panel 138 are now not providing any interference between the transport retaining or cam groove surfacelower detents 186 and the void between the cam groove surfaces 180, allowing theresealable container cap 160 to be freed from the container. - In the examples described and illustrated herein, the exemplary cam groove surfaces 180 are shown as grooves having a sloped segment that terminates at opposite lower and upper ends in a lower and an
upper detent 186, 188 (respectively), whereby the entire cam groove surfaces orelements cylindrical sidewall 162 of theresealable container cap 160. It is equally possible to form the cam groove surfaces orelements resealable container cap 160. Further, while the socket sidewallcam engaging projections 150, acting as cam followers, project from the cap receiving socketcylindrical sidewall 132 of thecap receiving socket 130, thecap receiving socket 130 could have been formed withcam surfaces cam engaging projections 150 could have been formed on theresealable container cap 160. The exact size and shapes of the cam surfaces 181, 182, 183 can be selected to correspond to the particular needs of thecontainer 100. The overall goal is to select a structure that results in an operable torque which can be applied by consumers without exerting excessive effort. - The structures described above can be made using unique manufacturing processes, which combine some of the known processing steps with new, modified or avoided steps. In one particularly preferred method of making
containers 100, as illustrated in the flow chart ofFIG. 14 , preformedresealable container lids 110 are provided from a shell press. Next,cap receiving sockets 130 are formed in theresealable container lids 110 using a conversion press. Next, a score line is formed in the bottom of thecap receiving socket 130 in the conversion press, either at the same time, or sequentially after thecap receiving socket 130 is formed.Resealable container cap 160 are formed by injection molding, or other suitable means, and the resealable container caps 160 are supplied to the assembly line, where they are inserted into the sockets. The resealable container caps 160 are then secured to the sockets by press forming the projections by spacing three dies around the socket, all centered on a common plane. The dies are pressed inwardly against the cylindrical sidewall of thecap receiving socket 130, and theresealable container cap 160 acts as a mandrel against the inner pressing force of the dies, thus forming the socket sidewallcam engaging projections 150 to project into the grooves of the cam groove surfaces 180. Theresealable container lids 110 or ends are then packaged and sent to bottlers, who can then use conventional processing steps to secure the lid to any of a variety of cans or other beverage containers. - The process described above achieves several cost and environmental advantages over the prior manufacturing techniques. First of all, the lid does not have to be processed to form a rivet, which has conventionally been used to secure a pull tab to a can lid. There is no need for a rivet because there is no need for the pull tab. The rivet required the lid to be made of stronger, thicker material, usually consisting of a different alloy of aluminum as opposed to the material that made up the sidewall and bottom. Moreover, the conventional process would have required the formation of a pull tab, likely to be made of third, different aluminum alloy. Use of three different aluminum materials presented a problem for recycling, whereas in the present invention, a single material can be used to form the can body and the can lid.
- Referring to
FIG. 15 , a further variation of manufacturing process is disclosed. In the first step a pre-formedresealable container lid 110 is provided from a shell press with acap receiving socket 130 already formed. In the next step, theresealable container lid 110 and cap receivingsocket 130 are aligned directionally for a conversion press. Next a cap receiving socket bottom panelcircular score line 136 is created in the conversion press, at the bottom of thecap receiving socket 130. Molded resealable container caps 160 are provided to the assembly line, and inserted into the moldedresealable container cap 160. The molded resealable container caps 160 are secured to thecap receiving socket 130 by forming the socket sidewallcam engaging projections 150 in a manner described above, in which theresealable container cap 160 functions as a mandrel during formation of the projections. Next, theresealable container lids 110 with secured resealable container caps 160 are packaged and shipped to bottlers or others for conventional filling, sealing, and shipment to customers. As in the previously described manufacturing process, there is no need to form a rivet in theresealable container lid 110, and no need to attach a pull tab to the rivet. Avoiding these steps saves money and makes the resulting product easier to recycle. - An alternative example of a
container 200 is shown inFIGS. 18 through 35 , and includes a body having a containercylindrical sidewall 202 and opposite axial ends. Thecontainer 100 andcontainer 200 include a number of similar features. Like features of thecontainer 100 and thecontainer 200 are numbered the same except preceded by the numeral '2'. Thecontainer 200, like that of the previous example (container 100), is illustrated in the size and shape of a common aluminum can used today for a wide variety of beverages, including soft drinks, juice drinks, beer, and the like. The body itself differs from the prior art in the features at the top end or lid of thecontainer 100 where the features of the present example allow for opening and resealing thecontainer 200. - A container closed bottom wall 204 (seen in
FIG. 20 ) is integrally formed at one of the axial ends with thecontainer sidewall 202 in the known fashion of making aluminum cans. However, the body (202, 204) can be made of other materials and have other shapes, depending on either style, functionality or a combination of both. Aresealable container lid 210 is attached to the open axial end of the body, at the open end defined by the containercylindrical sidewall 202, after filling the body (202, 204) with a beverage in the ordinary, and known, way of attaching resealable container lids or tops 110 to thecontainers 200. After assembly, theresealable container lid 210, container closedbottom wall 204 and containercylindrical sidewall 202 define a closed, interior space. - A
cap receiving socket 230 is formed in theresealable container lid 210 and includes acylindrical sidewall 110 and a cap receivingsocket bottom wall 234. Thecap receiving socket 230 is located eccentrically so that it nears a peripheral edge of theresealable container lid 210 to facilitate drinking and pouring after opening. Thecap receiving socket 230 further includes a cap receiving socket bottom panelcircular score line 236 slightly inset from the peripheral edge of the cap receivingsocket bottom wall 234 and forming a cap receiving socket bottom panel substantially closedloop tear panel 238. An cap receiving socket bottom panel centeredscore line 242 is provided at the center of the bottom wall cap receivingsocket bottom wall 234 and preferably includes two intersecting score lines that form an "X" with the intersection of the two lines being at the center of the cap receivingsocket bottom wall 234. The cap receivingsocket bottom wall 234 further includes socket bottom panel ramps 290, 291, 292 which are equidistantly spaced around the periphery of the cap receivingsocket bottom wall 234 inside the cap receiving socket bottom panelcircular score line 236. A different number of ramps could be used, but three is preferable. The socket bottom panel ramps 290, 291, 292 are integrally formed in the cap receivingsocket bottom wall 234. - The
cap receiving socket 230 further includes equidistantly spaced socket sidewallcam engaging projections sidewall 110. From an interior view, such as that shown inFIGS. 22 and34 , the projections such as projections 124 and 128 are shown as indentations, since the projections are formed from the sidewall material. Theresealable container lid 210 also includes a resealable container lid uppersurface reinforcement formation 218, as in the previous example, which may include instructional text to inform the consumer how to use the opening and resealing features of thecontainer 200. - A
resealable container cap 260 fits into thecap receiving socket 230 and includes a resealable container capcylindrical sidewall 262 and abottom wall 136. A series of cam groove surfaces 281, 282, 283 are provided in the resealable container capcylindrical sidewall 262 of theresealable container cap 260 at equidistantly spaced locations and are designed to receive thecam engaging projections cap receiving socket 230, when theresealable container cap 260 is assembled within thecap receiving socket 230. In this regard,container 200 is similar tocontainer 100. When assembled and before opening the container, theresealable container cap 260 seats in thecap receiving socket 230 as shown inFIGS. 30 through 32 . - The
resealable container cap 260 further includes a resealable container cap handle orgrip element 274 at the upper end of theresealable container cap 260 so that the consumer can turn the cap in either clockwise or counterclockwise directions. As in the previous examples, the upper perimeter of theresealable container cap 260 is provided with a radially extendingcap skirt 270 which provides a tamper resistant feature, whereby the skirt would extend upwardly if the cap had been turned to cause theresealable container cap 260 to descend further into thecap receiving socket 230. The radially extendingcap skirt 270 and all other features of theresealable container cap 260 are integrally formed in a one-piece construction preferably of a plastic material. Other materials could be used including ceramic and metallic materials. - A sharp centered incising
projection 269 is formed in the center of the bottom surface of theresealable container cap 260, so that when theresealable container cap 260 is fitted in thecap receiving socket 230, prior to opening the beverage can 100, the point of the sharp centered incisingprojection 269 is positioned next to or juxtaposed at the center of the bottom surface of thecap receiving socket 230, at the point of intersection between the two lines that form the cap receiving socket bottom panel centeredscore line 242. The sharp centered incisingprojection 269 punctures the cap receivingsocket bottom wall 234 of thecap receiving socket 230 as theresealable container cap 260 moves linearly downwardly and further into thecap receiving socket 230 during opening operation of the beverage can 200. - An offset projecting
incisor 268 is formed along an outer region of the bottom surface of theresealable container cap 260, so that when theresealable container cap 260 is fitted in thecap receiving socket 230, prior to opening the beverage can 100, the point of the sharp offset projectingincisor 268 is positioned in alignment with the cap receiving socket bottom panelcircular score line 236 formed in the bottom surface of thecap receiving socket 230, as best shown inFIG. 30 . The sharp offset projectingincisor 268 fractures the cap receiving socket bottom panelcircular score line 236 formed in the cap receivingsocket bottom wall 234 of thecap receiving socket 230 as theresealable container cap 260 moves linearly downwardly and further into thecap receiving socket 230 during opening operation of the beverage can 100. - To understand how
container 200 operates, reference is made toFIG. 25 , which is a top view of the beverage container prior to opening. Optionally, the resealable container lid uppersurface reinforcement formation 218 is embossed, printed or otherwise marked with instructions for how to use theresealable container cap 260. First, the consumer is instructed to open the beverage container by turning, or rotating, theresealable container cap 260 in the clockwise direction. The degree of slope on the ramps and the degree of slope on the spiral grooves is selected to ensure that thecontainer 200 can be opened with the same or similar amount of force used to open a conventional beverage container, such as a soda can. This can be accomplished with a turning motion of the cap that is in the range of 45 to ninety degrees (45-90°), preferably. - After the
resealable container cap 260 is rotated or turned to the full extent allowed, theresealable container cap 260 pushes the cap receiving socket bottom panelloop tear panel 238 into the can, but thetear panel 238 stays connected to theresealable container lid 210 through a portion of the lid between the ends of the cap receiving socket bottom panelcircular score line 236. In order to then drink the contents of thecontainer 200, the consumer turns, twists or rotates theresealable container cap 260 in the opposite direction until returning past the starting point from where the opening rotation started, placing thecam engaging projections - At that point, the
resealable container cap 260 is pulled upwardly by the consumer to become separated from thecontainer 200, and the consumer is then free to drink from the opening formed in theresealable container lid 210 as a result of the cap receiving socket bottom panel substantially closedloop tear panel 238 being pushed into thecontainer 100. When the consumer is finished drinking, and if thecontainer 200 is not empty, the consumer can reseal or close the beverage container by pushing theresealable container cap 260 back into thecap receiving socket 230 and then turning, twisting or rotating theresealable container cap 260 in the same direction as the opening direction, until theresealable container cap 260 is fully seated in thecap receiving socket 230, thus sealing the opening in thecontainer 200. In the resealed state, the contents of thecontainer 200 can be kept fresh, carbonated (in the case of carbonated drinks), and spill-proof (when thebeverage container 200 is mobile, such as if kept in a back pack, stroller, automobile drink holder, and the like). - As in the other examples described herein, the disclosure includes an assembled
container 200, with or without contents, with a unique resealing mechanism. The disclosure also includes a container subassembly comprising aresealable container lid 210 and aresealable container cap 260, capable of further assembly with acontainer body resealable container cap 260 capable of use with aresealable container lid 210, or with acontainer 200 that includes aresealable container lid 210, such that the beverage containers could be purchased without resealable container caps 260, and could separately purchase resealable container caps 260 that are then used with thecontainers 200 that are formed with the aforementionedcap receiving socket 230. This way, resealable container caps 260 could be re-used, repeatedly. Purchase of resealable container caps 260 separately from thecontainers 200 would have a "green" effect, in that the resealable container caps 260 could be washed and re-used over and over, thereby reducing waste. - Another feature is to provide a
resealable container cap 360, as illustrated inFIGS. 36 and37 . Theresealable container cap 260 andresealable container cap 360 include a number of similar features. Like features of theresealable container cap 260 and theresealable container cap 360 are numbered the same except preceded by the numeral '3'. Theresealable container cap 360 includes the features presented above, including the cap bottom surface ramps 394, 395, and 396, and cam groove surfaces 381, 382, and 383. As with the other examples, theresealable container cap 360 has a cap receivingsocket bottom wall 334 from which the ramps project. Acap sealing ring 365 is provided on the surface of the cap receivingsocket bottom wall 334 near the periphery thereof. Thecap sealing ring 365 is made of an elastomeric material that is different from the material that constitutes theresealable container cap 360, which is preferably made of a hard plastic material. The material which forms thecap sealing ring 365 can be injected through ports into a mold and formed on theresealable container cap 360 at the same time that theresealable container cap 360 is being injection molded. Alternatively, thecap sealing ring 365 can be a separate preformed item that can be adhesively bonded in place after theresealable container cap 360 is removed from its mold. - A central sharp projection 241 is formed in the center of the bottom surface of the
resealable container cap 360, wherein the central sharp projection 241 is similar to the sharp centered incisingprojection 269 described above in design, location and function. - An offset projecting
incisor 368 is formed along an outer region of the bottom surface of theresealable container cap 360, wherein the offset projectingincisor 368 is similar to the offset projectingincisor 268 described above in design, location, and function. - Any of a variety of thermoplastic elastomers (TPEs) can be used to make the
cap sealing ring 365, and selection of the precise one is a matter of design choice, as the requirements are simply that the material be easy to mold, easily adherent to the material that makes up the cap, and to some degree deformable under pressure (in use). Other materials could be used if a sealing ring is pre-made and adhesively bonded to the end face or bottom wall of the cap. However, molding the ring in place is preferred. As for TPEs, they are sometimes referred to as thermoplastic rubbers, and are in a class of copolymers or a mixture of polymers which consist of both thermoplastic and elastomeric properties. They are particularly suitable for injection molding, which is the preferred way to form thecap sealing ring 365 on the face of theresealable container cap 360. - It is noted that in
FIG. 38 , there are tworamps FIG. 38 , a cap used inFIG. 38 has two ramps on the lower end face that are shaped and positioned compatibly with the socket bottom panel ramps 390 and 391 shown inFIG. 38 . - The
resealable container cap 360 operates in the same way as the caps of previous examples, in that the consumer turns the cap in one direction to open the container, then turns theresealable container cap 360 in the opposite direction to remove theresealable container cap 360, and then theresealable container cap 360 is re-inserted into thecap receiving socket 230 and turned in the first, container-opening direction until theresealable container cap 360 is fully seated in thecap receiving socket 230. Theresealable container cap 260 is shown in this fully seated position inFIG. 35 , for resealing thecontainer 200, in which thebottom surface 264 of theresealable container cap 260 presses against the cap receivingsocket bottom wall 234 of thecap receiving socket 230 to form a sealing engagement between thecap receiving socket 230 and the cap. With the example ofresealable container cap 360 that includes the sealingring 367, in this position, thecap sealing ring 365 is pressed against the cap receivingsocket bottom wall 234 of thecap receiving socket 230 to enhance the sealing relationship between thecap receiving socket 230 and theresealable container cap 360. Contact between a hard surface, i.e., the metal material that makes up thecap receiving socket 230, and a relatively softer material, i.e., the elastomeric material that makes up thecap sealing ring 365, will ensure a better seal for the contents of thecontainer 200. This is particularly useful when it comes to carbonated beverages, such as sodas, beers, and the like. - In the previously described examples the cap is provided with a resealable container cap handle or
grip element 174, as seen inFIGS. 10, 11 and13a , for example. An alternative resealable containercap grip element 374 is shown inFIGS. 39 and40 , in which the resealable containercap grip element 474 includes two parallel resealable container cap grip elementfirst cross member resealable container cap 460. It is understood that the larger the diameter of the coin or other object, the greater the force that can be transmitted to theresealable container cap 460. The container 300 can be sold as an assembly which includes theresealable container cap 460 and the implement (coin) 479 (assuming it is not a coin), a subassembly including theresealable container lid 410,resealable container cap 460 and grip enhancing implement 479 (without the container body and sealed contents), or theresealable container cap 460 can be sold by itself. For ease of storage and transportation, and as a cost saving, it is preferable not to sell or package a grip enhancing implement 479 with thecontainer 400 orresealable container cap 460, and/or lid/cap assembly. - Referring now to
FIG. 41 , another aspect of the invention includes making the score line which defines the tear panel or panels in a way that enhances the opening or fracturing ability of the score line. As seen inFIG. 41 , aresealable container lid 410 includes a cap receivingsocket bottom wall 434 which includes a cap receivingsocket bottom wall 434. The cap receivingsocket bottom wall 434 includes three socket bottom panel ramps 490, 491 and 492, and a cap receiving socket bottompanel tear panel 438 defined by a cap receiving socket bottom panelcircular score line 436. The cap receiving socket bottom panelcircular score line 436, as in one of the previous examples is in the form of a loop, not quite fully disposed, so that a hinge is defined between the opposite ends of the cap receiving socket bottom panelcircular score line 436. The cap receiving socket bottom panelcircular score line 436 is made during the formation steps that create theresealable container lid 410, which in the case of beverage cans, is made of 0.008 inch thick material. Thescore line 436 is typically 0.004 inch deep, so that the thickness of thelid 410 under thescore line 436 is typically about 0.004 inch thick for aluminum beverage cans. The thinning of the material occurs during pressing of thelid 410, and in essence, the material which comprises thelid 410 is deformed and flows to create a thinned area beneath thescore line 436. - Using the same principals of material flow or deformation during the pressing steps, a score line thinned fracture initiation region 437 is formed at one end of the cap receiving socket bottom panel
circular score line 436 where one of theramps ramps score line 436. At the beginning of the opening process, theramps ramps sidewall container lid 410 to make it easier to puncture or break thescore line 436. Once thescore line 436 is broken at the puncture area 437, the break will propagate more readily and predictably around thescore line 436 to ease the opening of thecontainer cap 460 when seated in thesocket 430. - Each embodiment described herein has referred to a tear panel, such as cap receiving socket bottom
panel tear panel 138, as that part of the bottom wall of the socket that is defined by a circular or loop-shaped score line. This tear panel can also be described as a "frangible area" because it breaks away from the rest of thebottom wall cap socket tear panel FIG. 38 . While all other aspects of theresealable container lid 310 are the same as in previous examples, including acap receiving socket 330 having a cap receivingsocket bottom wall 334, thebottom wall 334 is provided with an cap receiving socket bottom panel "S" shapedscore line 344 which, when fractured by operation of the down movement of the cap and engagement of socketbottom panel ramp separate tear panels 338 which are pushed inwardly during the opening operation, with the twotear panels 338 being connected to the can by ahinge area 339 on opposite sides of the cap receivingsocket bottom wall 334. During the opening process, the sharp protrusion in the middle of the bottom wall of the cap will puncture the center of thescore line 344 at a score line fracture thinnedinitiation region 346. At about the same time, theramps cap receiving socket 330 and theramps resealable container cap 360 cooperate to push thetear panels 338 at locations opposite what will become thehinges 339, in essentially the "loop" portions of the cap receiving socket bottom panel "S" shapedscore line 344. Simultaneously, twotear panels 338 are formed and pushed into the interior of thecontainer - During opening and closing operations, the resealable container cap handle or
grip element resealable container cap grip resealable container cap resealable container cap ramps de-bossed ramps resealable container cap socket bottom wall cap receiving socket resealable container cap tear panel tear panel hinge - In all cases using ramps, it is preferred that the peak height of the ramps be disposed near or in close proximity to the hinge, as this will help push the
tear panel tear panel de-bossed ramps ramp lid cap - A
resealable container lid 510, illustrated inFIGS. 42 through 78 , is another exemplary variant of the resealable container lid concepts previously described herein. The resealable container lid 510 (detailed inFIGS. 42 through 44 ) and the resealable container cap 560 (detailed inFIGS. 45 through 47 ) include a portion of features that are similar to those of theresealable container lid 110 andresealable container lid 210 and those of theresealable container cap 160 andresealable container cap 260, respectively. Like features of theresealable container lid 510 and theresealable container lid 110 andresealable container lid 210 are numbered the same except preceded by the numeral '5'. Like features of theresealable container cap 560 and theresealable container cap 160 andresealable container cap 260 are numbered the same except preceded by the numeral '5'. - The
resealable container lid 510 is preferably formed from a single sheet of metal using any suitable metal forming process or combination of metal forming processes. Theresealable container lid 510 is formed having a substantiallyvertical sidewall socket bottom wall 534. The substantiallyvertical sidewall - In previous variants, a
cap receiving socket 130 was formed extending downward from a portion of the resealable container lidplanar base bottom 119. More specifically, thecap receiving socket 130 is defined by a cap receiving socketcylindrical sidewall 132 in combination with the cap receivingsocket bottom wall 134. Thecap receiving socket 130 is preferably located off-centered respective to a peripheral edge of theresealable container lid 110. - In the exemplary variant, a cap receiving socket is defined by the cap receiving socket
cylindrical sidewall 532 in combination with the cap receivingsocket bottom wall 534. More specifically, theresealable container lid 510 is formed deeper to include the cap receiving socketcylindrical sidewall 532 as part of the outer peripheral sidewall, making the cap receivingsocket bottom wall 534 the same as the container lidplanar base bottom 119. The cap receiving socket is concentrically arranged respective to the cap receiving socketcylindrical sidewall 532 of theresealable container lid 510. Aperipheral countersink 526 provides a transition between the cap receiving socketcylindrical sidewall 532 and the cap receivingsocket bottom wall 534. Theperipheral countersink 526 is preferably formed having a generally "U" shape, extending downward from the cap receiving socketcylindrical sidewall 532, then radially inward arching from a downward direction to an upward direction, and extending upward where theperipheral countersink 526 transitions into a peripheral edge of the cap receivingsocket bottom wall 534. Theperipheral countersink 526 can be used to reference a lower peripheral edge. - The
peripheral countersink 526 extends downward below an upper surface of the cap receivingsocket bottom wall 534. Theperipheral countersink 526 provides a clearance for a lower region of a resealable container cap cylindricalexterior sidewall 562 of theresealable container cap 560 during assembly of theresealable container cap 560 and theresealable container lid 510 to one another. - The
resealable container lid 510 includes a number of functional features. A seamingpanel 520 is formed about an upper edge of theresealable container lid 510, wherein the seamingpanel 520 is provided to assemble theresealable container lid 510 to a container seaming flange 106 (FIG. 82 ). Theresealable container lid 510 is assembled to a top rim of the containercylindrical sidewall 102, sealing contents within aresealable container 500, as shown inFIGS. 82-85 . Theresealable container lid 510 includes features enabling a user to access the contents sealed within theresealable container 500. Aresealable container cap 560 is employed to enable a user to breach the sealedresealable container lid 510 and access or dispense the contents stored within theresealable container 500. Additionally, theresealable container cap 560 may be employed to enable a user to reseal / close the openedresealable container lid 510 preserve and protect the contents stored within theresealable container 500. - A cap receiving socket bottom
panel tear panel 538 is designed into theresealable container lid 510 enabling the user to access the contents stored within the container. The cap receiving socket bottompanel tear panel 538 is defined by a cap receiving socket bottom panelcircular score line 536 formed within the cap receivingsocket bottom wall 534 of theresealable container lid 510. The cap receiving socket bottompanel tear panel 538 can be formed in at least one of a top surface of the cap receivingsocket bottom wall 534 and a bottom surface of the cap receivingsocket bottom wall 534. The cap receiving socket bottom panelcircular score line 536 can be routed in any suitable shape defining the cap receiving socket bottompanel tear panel 538. In the exemplary embodiment, the cap receiving socket bottom panelcircular score line 536 is formed extending between two ends in a generally circular shape. The two ends are spatially arranged creating atear panel hinge 539. At least one end can be configured extending outward from an interior region or cap receiving socket bottompanel tear panel 538 defined by the cap receiving socket bottom panelcircular score line 536. The at least one outward extending end of the cap receiving socket bottom panelcircular score line 536 deters against tearing of the material between the two ends of the cap receiving socket bottom panelcircular score line 536. It is understood that the preferred cap receiving socket bottom panelcircular score line 536 would include a configuration where both ends include the outward extending formation. The outward extending formation can be linear, arched, or of any other suitable shape. In the exemplary embodiment, the cap receiving socket bottompanel tear panel 538 is designed to open when theresealable container cap 560 is rotated in a counterclockwise direction, wherein the opening is defined as a dispensing aperture. The dispensing aperture can be sized to dispense a beverage and/or a food product, wherein the beverage and/or food product are collectively referred to as comestible. The exemplary embodiment is directed towards a container adapted for retaining, distributing, and consuming a beverage, such as water, carbonated drinks, fruit drinks, milk, beer, wine, and the like. It is understood that thesame container lid 510 can be used for smaller food products, such as peanuts and other nuts, candy, mints, gumdrops, confections, jelly beans, condiments, soups, oils, spices, powdered products (baking soda, sugar, flour), and the like. - A seaming
chuck shoulder 524 can be formed about a central portion of the vertical wall, segmenting the wall into a seaming chuck wall 522 (upper portion) and a cap receiving socket cylindrical sidewall 532 (lower portion). The seamingchuck shoulder 524 can be considered as an upper peripheral edge of the cap receiving socketcylindrical sidewall 532. A plurality of cam tracks 552, 554, 556 is formed within the cap receiving socketcylindrical sidewall 532. The plurality of cam tracks 552, 554, 556 is spatially arranged about the cap receiving socketcylindrical sidewall 532. The plurality of cam tracks 552, 554, 556 run generally horizontally, having slight upward and/or downward deviations to accomplish upward and/or downward motions of theresealable container cap 560. The cam tracks 552, 554, 556, provide several functions, including rotational and axial motions between theresealable container lid 510 and theresealable container cap 560, reinforcement of the vertical wall, a retention mechanism for retaining theresealable container cap 560 within the cap receiving socket of theresealable container lid 510, and other functions. The cam tracks 552, 554, 556 are segmented functionally into a plurality of sections, as shown inFIGS. 52 and53 . Details of the plurality of sections of the cam tracks 552, 554, 556 will be described later herein. The cam tracks 552, 554, 556 are preferably formed as embossed features extending inward from the cap receiving socketcylindrical sidewall 532. Aninter-cam relief section inter-cam relief sections respective cam follower resealable container cap 560 from a position above the cam tracks 552, 554, 556 to a position below the cam tracks 552, 554, 556. - A resealable container lid upper
surface reinforcement formation 518 can be included and would be formed as either an embossed feature or a debossed feature within the cap receivingsocket bottom wall 534. The resealable container lid uppersurface reinforcement formation 518 is defined by a socket bottom wall to surfacereinforcement formation transition 541. The cap receiving socket bottompanel tear panel 538 would be located within the resealable container lid uppersurface reinforcement formation 518. The resealable container lid uppersurface reinforcement formation 518 would be shaped to support the material of the resealable container lid uppersurface reinforcement formation 518 adjacent to the cap receiving socket bottom panelcircular score line 536 to increase the efficiency of the propagation of the fracture when the opening force is applied by theresealable container cap 560 onto the associated features of the cap receiving socket bottompanel tear panel 538. In addition, the resealable container lid uppersurface reinforcement formation 518 provides a clearance for anincisor deboss panel 566 on theresealable container cap 560 and the resealable container lid uppersurface reinforcement formation 518 lowers the top surfaces of the lead in supplemental score fracture propagation and tearpanel support boss 597, the tearpanel reinforcing boss 598, and the finishing score fracture propagation and tear panelfold urging boss 593 of the cap receiving socket bottompanel tear panel 538 resulting in a clearance to the bottom surface of the resealable container capplanar traversing wall 564 of theresealable container cap 560. Theincisor deboss panel 566 is described as such as when viewing from an exterior surface of aresealable container cap 560 formed from a single sheet of material, theincisor deboss panel 566 appears as a recession extending downward from the resealable container capplanar traversing wall 564. In an alternative description, theincisor deboss panel 566 can be referred to as anincisor platform 566, as theincisor platform 566 extends downward from a bottom surface of the resealable container capplanar traversing wall 564. - The
resealable container lid 510 can include one or more features to reinforce desired areas of theresealable container lid 510. - Reinforcement features can be integrated into the cap receiving
socket bottom wall 534 and/or the vertical sidewall. The reinforcement features can provide any of several functions, including retention of a shape of the associated segment of theresealable container lid 510, movement between theresealable container cap 560 and theresealable container lid 510, reinforcement during initiation and/or propagation of a fracture of a cap receiving socket bottom panelcircular score line 536, clearance for features during operation, retention of theresealable container cap 560 within the cap receiving socket of theresealable container lid 510, and the like. - The seaming
chuck shoulder 524 provides some rigidity to the vertical sidewall. The cam tracks 552, 554, 556 provide additional rigidity to the vertical sidewall. Theperipheral countersink 526 provides support about the lower edge of the vertical sidewall and the peripheral edge of the cap receivingsocket bottom wall 534. Theperipheral countersink 526 introduces some flexibility between the lower edge of the vertical sidewall and the peripheral edge of the cap receivingsocket bottom wall 534, which will be described in more detail when discussing a retort process. - As stated above, the socket bottom wall to surface reinforcement formation transition 541 (defining the resealable container lid upper surface reinforcement formation 518) supports the portion of the resealable container lid upper
surface reinforcement formation 518 adjacent to the cap receiving socket bottom panelcircular score line 536 to increase the efficiency of the propagation of the fracture when the opening force is applied by theresealable container cap 560 onto the associated features of the cap receiving socket bottompanel tear panel 538. - An
incisor pathway channel 517 can be formed within the resealable container lid uppersurface reinforcement formation 518. Theincisor pathway channel 517 is preferably formed having a semi-circular, debossed shape concentric with an axis of rotation of theresealable container cap 560. One end of theincisor pathway channel 517 terminates at an incisor channel to tearpanel surface transition 592, wherein the incisor channel to tearpanel surface transition 592 is located proximate and/or abutting a fracture initiating region of a cap receiving socket bottom panelcircular score line 536. Theincisor pathway channel 517 provides several functions, including increasing a rigidity of the resealable container lid uppersurface reinforcement formation 518 and providing a clearance for anincisor 568 during rotation of the resealable container capresealable container cap 560, wherein the offset projectingincisor 568 extends downward from a lower surface of theresealable container cap 560. - The exemplary embodiment includes a series of
ribs panel tear panel 538. These formations reinforce the cap receiving socket bottompanel tear panel 538 in both a radial direction and a tangential direction respective to a rotational motion of theresealable container cap 560. The series ofribs resealable container cap 560 across the cap receiving socket bottompanel tear panel 538, directing the applied force to the cap receiving socket bottom panelcircular score line 536, propagating a fracturing of the cap receiving socket bottom panelcircular score line 536 along a length of the cap receiving socket bottom panelcircular score line 536. - In addition to the above described reinforcing features, the lower edge of the resealable container cap cylindrical
exterior sidewall 562 can be rolled to reinforce the circumferential lower edge thereof, as well as eliminating any sharp edges of theresealable container cap 560. - The
resealable container cap 560 can be formed in any suitable configuration, with several variations of the container cap being described herein. Each of the variants of the container caps can be fabricated of any suitable metal, aluminum, steel, plastic, composite materials, fiber reinforced plastics, or any other suitable material. The exemplaryresealable container cap 560 is formed from a single sheet of material using at least one commonly known metal forming process or other manufacturing process associated with the selected material. - The exemplary
resealable container cap 560 includes a vertical sidewall circumscribing a peripheral edge of a resealable container capplanar traversing wall 564. The vertical sidewall includes an upward extending resealable container cap cylindricalinterior sidewall 563 and a downward extending resealable container cap cylindricalexterior sidewall 562. The upward extending resealable container cap cylindricalinterior sidewall 563 and the downward extending resealable container cap cylindricalexterior sidewall 562 are generally perpendicular to a resealable container capplanar traversing wall 564. - A cylindrical sidewall inverted
countersink 570 is formed about an upper end of the vertical sidewall, the cylindrical sidewall invertedcountersink 570 being a transition between the resealable container cap cylindricalinterior sidewall 563 and the resealable container cap cylindricalexterior sidewall 562. The cylindrical sidewall invertedcountersink 570 can be formed having an inverted "U" shape. The resealable container cap cylindricalexterior sidewall 562 is preferably dimensioned so that it fits within a generally vertical clearance between the proximal surfaces of the cam tracks 552, 554, 556 and the peripheral edge of the cap receiving socket bottom wall 534 (essentially, an inner wall of the peripheral countersink 526). Additionally, the resealable container cap cylindricalexterior sidewall 562 is preferably designed so that it curves out towards the cap receiving socketcylindrical sidewall 532, closing the gap created between the cap receiving socketcylindrical sidewall 532 and resealable container cap cylindricalexterior sidewall 562 to provide clearance for the cam tracks 552, 554, 556. It is understood that by closing this gap the container lid assembly can decrease the possibility of contaminants entering the gap between the cap receiving socketcylindrical sidewall 532 and resealable container cap cylindricalexterior sidewall 562. - An offset projecting
incisor 568 extends downward from a bottom surface of the resealable container capplanar traversing wall 564. The offset projectingincisor 568 can be located within aincisor deboss panel 566, wherein theincisor deboss panel 566 is a debossed feature providing several functions, including lowering the offset projectingincisor 568, reinforcing an area of the material surrounding the offset projectingincisor 568, a distributed compression force applicator, and other functions. - A ring shaped
cap sealing ring 565 is applied to a peripheral edge of a bottom surface of the resealable container capplanar traversing wall 564. Thecap sealing ring 565 is fabricated of any suitable pliant material, including an elastomer, an elastomeric polymer, plastisol, a low durometer rubber, or any other suitable pliant sealing material. - A series of
cam followers exterior sidewall 562. Thecam followers cam followers inter-cam relief sections cam followers inter-cam relief section respective cam track cam followers respective cam track resealable container cap 560 within the cap receiving socket of theresealable container lid 510 into at least one of an axial motion and an axial force applicator. Theperipheral countersink 526 of theresealable container lid 510 is sized and shaped to receive the bottom edge of resealable container cap cylindricalexterior sidewall 562 and thecam followers exterior sidewall 562. - At least one resealable container
cap grip element 574 is formed extending upward from the top surface of the resealable container capplanar traversing wall 564 of theresealable container cap 560. The resealable containercap grip element 574 can be formed having any suitable shape. In a preferred embodiment, the resealable containercap grip element 574 would be of a height that retains a top edge of the resealable containercap grip element 574 at or below a top edge or surface of the seam of the container (container body andlid assembly seam 509 ofFIG. 90 ). The resealable container capplanar traversing wall 564 is recessed within a cavity defined by the resealable container cap cylindricalinterior sidewall 563, wherein the recessed resealable container capplanar traversing wall 564 enables the resealable containercap grip element 574 to project upward therefrom, while retaining a minimum overall height from the bottom of theresealable container cap 560. - The resealable container
cap grip element 574 would include at least one cap grip elementforce application surface 575. The cap grip elementforce application surface 575 would be sized to ergonomically and adequately support a force applied by the end user. - The user would grip each at least one cap grip element
force application surface 575 to apply a force to theresealable container cap 560. The force is translated into a rotational or torsional force for urging theresealable container cap 560 into a counterclockwise (score line fracturing) motion or a clockwise (closing) motion. In more detail, the cam tracks 552, 554, 556 are segmented into a plurality of functional sections, as best shown inFIGS. 52 and53 . Initially, eachcam follower inter-cam relief section FIGS. 44 ,48 ,49 , and54 . Theresealable container cap 560 is inserted into the cap receiving socket of theresealable container lid 510, wherein thecam followers inter-cam relief sections FIG. 50 . In the exemplary version, theresealable container lid 510 and theresealable container cap 560 are geometrically related with one another. The first formedcam follower 581 is aligned with the firstinter-cam relief section 551 during initial assembly of theresealable container cap 560 into the cap receiving socket of the resealable container lidresealable container lid 510, as shown in the side elevation exploded assembly view ofFIG. 54 . Additionally, this alignment inserts the offset projectingincisor 568 into theincisor pathway channel 517, as shown inFIG. 55 and56 . - The assembly requires a significant downward force in combination with a counterclockwise rotation, compressing a
cap sealing ring 565 sufficiently enough to locate the first formedcam follower 581 along a bottom edge of the cam track assembly /locking detent segment 552A of the firstsocket cam track 552. The significant downward force compresses thecap sealing ring 565, as shown inFIGS. 55 ,56 ,57 . The initial contact is illustrated inFIG. 56 , where thecap sealing ring 565 is in contact with the top surface of the cap receivingsocket bottom wall 534, but not yet compressed. During application of the significant downward force, thecap sealing ring 565 is compressed, as illustrated inFIG. 57 . The cam track assembly /locking detent segment 552A is configured being the lowest point of thecam track 552. Continuing with the counterclockwise rotation of the cap will transfer the first formedcam follower 581 into cam track initial / resealedsegment 552B, which allows decompression of the cap sealing ring 565 (as shown inFIG. 68 ), as shown in the side elevation exploded assembly view ofFIG. 58 . Additionally, the configuration of the cam tracks 552, 554, 556 retain theresealable container cap 560 with the cap receiving socket of theresealable container lid 510 by thecam followers - The cam track assembly /
locking detent segment 552A retains theresealable container cap 560 within the cap receiving socket of theresealable container lid 510, when subjected to a clockwise motion. The offset projectingincisor 568 butts up against the incisor channel to tearpanel surface transition 592 to retain theresealable container cap 560 within the cap receiving socket of theresealable container lid 510, when subjected to a continuing counterclockwise motion. Registration between the offset projectingincisor 568 and the incisor channel to tearpanel surface transition 592 is best shown inFIGS. 60 and61 . Thus retaining theresealable container cap 560 within the cap receiving socket enabling only a small rotational motion thereof. It is understood that the design can be such to limit any motion to effectively eliminating any play between a counterclockwise motion and a clockwise motion. - The initial assembly step is adapted for completion by a mechanical device, such as an assembly machine. The forces required are designed to deter accomplishment of the initial assembly step by an individual. The subsequent steps are adapted to be accomplished by the end user.
- The following describes the container lid opening sequence, which is directed towards completion by the end user. Continuing with a counterclockwise rotation of the
resealable container cap 560, from a position where the first formedcam follower 581 is engaged with the cam track initial / resealedsegment 552B, the continuing motion causes the offset projectingincisor 568 to impinge upon the incisor channel to tearpanel surface transition 592, initializing a fracture of the cap receiving socket bottom panelcircular score line 536, as shown inFIGS. 61 ,67 ,71 . - As the rotation continues, the first formed
cam follower 581 transitions from the cam track initial / resealedsegment 552B to a cam trackheight transition segment 552C, as best shown inFIGS. 62 ,68 ,72 . During this transition, the bottom surface of the offset projectingincisor 568 begins to ride upon a top surface of the incisor channel to tearpanel surface transition 592, wherein the offset projectingincisor 568 begins to force the cap receiving socket bottompanel tear panel 538 into theresealable container 500. Additionally, the bottom surface of theincisor deboss panel 566 begins to ride upon a top surface of the lead in supplemental score fracture propagation and tearpanel support boss 597, wherein theincisor deboss panel 566 performs at least one function of propagating the fracture of the cap receiving socket bottom panelcircular score line 536 and traversely distributes the axial force applied by the offset projectingincisor 568 to the incisor channel to tearpanel surface transition 592 out to the bifurcatedscore line fracture 536. Further, theresealable container cap 560 separates slightly from theresealable container lid 510 in an axial direction, separatingcap sealing ring 565 from contact with the upper surface of the cap receivingsocket bottom wall 534 of theresealable container lid 510. This separation decreases or eliminates any parasitic drag or continued friction between thecap sealing ring 565 and the upper surface of the cap receivingsocket bottom wall 534 and enables continued counterclockwise rotation of theresealable container cap 560 to propagate the fracturing of the cap receiving socket bottom panelcircular score line 536. Additionally, this separation allows the venting of the pressurized gases released from theresealable container 500 when the offset projectingincisor 568 impinged upon the incisor channel to tearpanel surface transition 592, initializing the fracture of the cap receiving socket bottom panelcircular score line 536, in order to avoid theresealable container cap 560 from becoming a projectile if released from the container lid socket while still retaining pressure from the openedresealable container 500. As the rotation continues, the first formedcam follower 581 transitions from the cam trackheight transition segment 552C to a camtrack operating segment 552D, as best shown inFIGS. 63 ,69 ,73 . During this transition, the bottom surface of the offset projectingincisor 568 begins to ride upon a top surface of the tear panelsurface incisor pathway 591, continuing to generate an axial force for propagating the bifurcatedscore line fracture 536 and further separating thecap sealing ring 565 and the upper surface of the cap receivingsocket bottom wall 534. Additionally, theincisor deboss panel 566 in conjunction with the arrangement the ribbed support structures lead in supplemental score fracture propagation and tearpanel support boss panel tear panel 538, further the propagation of the fracture of the cap receiving socket bottom panelcircular score line 536 by distributing the applied loading force from theresealable container cap 560, as shown inFIG. 69 and73 . In addition to propagating the fracture of the cap receiving socket bottom panelcircular score line 536, the process also folds the cap receiving socket bottompanel tear panel 538 about thetear panel hinge 539, away from the resealable container lid uppersurface reinforcement formation 518. The load is sustained by thecam followers respective cam track - As the rotation continues, the offset projecting
incisor 568 rides up tear panel surface incisor pathway to tear panelfold boss transition 590, as shown inFIGS. 64 ,70 , and74 , and subsequently transitions onto the finishing score fracture propagation and tear panelfold urging boss 593, as shown inFIGS. 65 and75 . As the transition occurs, theincisor deboss panel 566 separates from the top surface of theribbed support structure - Nearing the end of the rotational container lid opening sequence, just prior to the transition of the first formed
cam follower 581 between the camtrack operating segment 552D to a cam track camfollower leader section 552E, shown inFIGS. 73 ,74 , the offset projectingincisor 568 impinges upon finishing score fracture propagation and tear panelfold urging boss 593 to finalize the folding of the cap receiving socket bottompanel tear panel 538 into the interior of theresealable container 500, as shown inFIGS. 65 and75 . Following the conclusion of the opening sequence, thecam followers follower leader section 552E, as shown inFIG. 75 , where thecam followers inter-cam relief section resealable container cap 560 from theresealable container lid 510. More specifically, the conclusion of the opening sequence locates the first formedcam follower 581 within the thirdinter-cam relief section 555, enabling the axial withdrawal of theresealable container cap 560 from theresealable container lid 510, as shown inFIG. 76 . - The shape of the cam tracks 552, 554, 556, more specifically, the cam track cam
follower leader section 552E, is designed such to provide a clearance between the bottom of the offset projectingincisor 568 and the top surface of the resealable container lid uppersurface reinforcement formation 518 to avoid any binding or other interference of the rotation of theresealable container cap 560. The combination of the cam track assembly /locking detent segment 552A and cam track camfollower leader section 552E ensures the reinstallation of theresealable container cap 560 into the cap receiving socket is only in a clockwise direction. Additionally, the revised, opened configuration of theresealable container lid 510 enables the user to insert theresealable container cap 560 into the cap receiving socket to reseal theresealable container 500 in any of the three potential orientations. Theincisor pathway channel 517 provides clearance for the offset projectingincisor 568 in any orientation. The associatedcam follower cam track segment 552B of the first socket cam track 552), causing thecap sealing ring 565 to compress against the top surface of the cap receivingsocket bottom wall 534, providing an air and liquid tight seal therebetween. - In addition to the operational features, the
resealable container cap 560 can include a tamper indicator, such as the off-centertamper indicator feature 528, shown inFIGS. 45-47 , and shown functioning inFIGS. 77 ,78 . The off-centertamper indicator feature 528 includes an off-center tamperindicator operation element 529, wherein the off-center tamperindicator operation element 529 mechanically operates the off-centertamper indicator feature 528. The off-center tamperindicator operation element 529 contacts the opposing surface of the resealable container lid uppersurface reinforcement formation 518. The resealable container lid uppersurface reinforcement formation 518 maintains a rigid (non-pliable) form when theresealable container 500 is in a sealed (unopened) condition, as shown inFIG. 77 . The rigidity is provided by an internal pressure within theresealable container 500. The rigidity of the resealable container lid uppersurface reinforcement formation 518 supports the off-center tamperindicator operation element 529, which in turn inhibits any motion of the off-centertamper indicator feature 528. This maintains the off-centertamper indicator feature 528 in position, disabling any potential for the off-centertamper indicator feature 528 to "report", wherein the "report" is the ability of the off-centertamper indicator feature 528 to flex, which preferably generates an audible and/or tactile response. When theresealable container 500 is breached, such as by the opening sequence previously described herein, the supporting pressure from within theresealable container 500 is reduced or removed, thus removing any support provided by the resealable container lid uppersurface reinforcement formation 518 to the off-center tamperindicator operation element 529, resulting in a flexible condition of the off-centertamper indicator feature 528, now allowing the off-centertamper indicator feature 528 to "report", as shown inFIG. 78 . - Another feature of the configuration of the
resealable container lid 510 andresealable container cap 560 is an anti-missiling function. Missiling may occur upon an initial fracture of the cap receiving socket bottom panelcircular score line 536, releasing stored pressure from within theresealable container 500. In a condition where theresealable container cap 560 retains a seal against theresealable container lid 510 and theresealable container lid 510 is breached, the pressure released from theresealable container 500 could potentially cause theresealable container cap 560 to become a projectile. The anti-missiling feature is created by a separation between thecap sealing ring 565 and the top surface of the cap receivingsocket bottom wall 534 while theresealable container cap 560 remains in engagement with theresealable container lid 510 during the initial opening sequence of theresealable container 500, thus providing a pathway for release of pressure. - As previously mentioned, the
resealable container cap 560 can be designed in any of a variety of configurations. Aresealable container cap 660, illustrated inFIGS. 79 through 81 and86 through 90 , is one exemplary variant of theresealable container cap 560. - The
resealable container cap 660 includes features that are similar to those of theresealable container cap 560. Like features of theresealable container cap 660 and theresealable container cap 560 are numbered the same except preceded by the numeral '6'. The significant distinction of theresealable container cap 660 is the location of the concentrictamper indicator feature 628. The off-centertamper indicator feature 528 is formed in an off-centered location respective to a centroid of theresealable container cap 560. Conversely, the concentrictamper indicator feature 628 is formed in a concentric about the centroid of theresealable container cap 660. The centered location of the concentrictamper indicator feature 628, and more specifically, the concentric tamperindicator operation element 629 of the concentrictamper indicator feature 628, is located to contact the resealable container lid uppersurface reinforcement formation 518 of theresealable container lid 510, as illustrated inFIG. 80 . The cap receiving socket bottom panelcircular score line 536 is designed to ensure that the cap receiving socket bottompanel tear panel 538 is off-centered to retain adequate support from the resealable container lid uppersurface reinforcement formation 518 to the concentric tamperindicator operation element 629. When theresealable container 500 is sealed (unopened), the concentric tamperindicator operation element 629 contacts and is supported by the resealable container lid uppersurface reinforcement formation 518, as shown inFIG. 80 . The pressure within the container maintains a rigidity of the cap receivingsocket bottom wall 534, including the resealable container lid uppersurface reinforcement formation 518. The pressure maintains a convex or bulged shape of the cap receivingsocket bottom wall 534, including the resealable container lid uppersurface reinforcement formation 518. When theresealable container 500 is breached, the release of the pressure from within the interior of the container eliminates the support of the cap receivingsocket bottom wall 534, including support of the resealable container lid uppersurface reinforcement formation 518. This results in a creation of a tamper indicator operation element andlid surface gap 527, as shown inFIG. 81 , the tamper indicator operation element andlid surface gap 527 extending between the concentric tamperindicator operation element 629 and the top surface of the resealable container lid uppersurface reinforcement formation 518 and/or a flexibility of the resealable container lid uppersurface reinforcement formation 518. Either condition allows the off-centertamper indicator feature 528 to "report" as previously described above, indicating the breach to the end user. Again, the "report" can be a tactile report, an audible report, or any other known reporting method. - An assembly of the
resealable container lid 510 onto the containercylindrical sidewall 102 was previously introduced, but not fully described. The assembly process is described in a series of sequence illustrations shown inFIGS. 82 through 85 . Theresealable container cap 560 can be assembled to theresealable container lid 510 either prior to assembly of theresealable container lid 510 onto the containercylindrical sidewall 102 or subsequent to the assembly of theresealable container lid 510 onto the containercylindrical sidewall 102. In the exemplary assembly process, theresealable container cap 560 is assembled to theresealable container lid 510 prior to assembling theresealable container lid 510 onto the containercylindrical sidewall 102, as this configuration does not introduce limitations confronted in the process which excludes theresealable container cap 560. - A seaming
chuck tool 600 is inserted into an interior of theresealable container lid 510 defined by the interior surface of the seamingchuck wall 522. Theresealable container lid 510 is seated upon thecontainer seaming panel 106 and thecontainer seaming wall 108 of the containercylindrical sidewall 102, as shown inFIGS. 82 ,83 . Thecontainer seaming wall 108 is a frustum shaped registration surface formed about an opening of the containercylindrical sidewall 102. Thecontainer seaming panel 106 is an outward extending radial flange formed about an opening of the containercylindrical sidewall 102. The seamingchuck tool 600 includes a seaming chuck toolconical driving wall 601, a seaming chuck toolplanar driving surface 602, and a seaming chuck toolcap clearance cavity 603. The seaming chuck toolconical driving wall 601 has a male frustum shape that is in concentric/conical registration with the seamingchuck wall 522 of theresealable container lid 510 and thecontainer seaming wall 108 of the containercylindrical sidewall 102, and is preferably designed to receive the compression forces applied by the first operation roller driving channel first operationroller driving channel 606 of thefirst operation roller 604 and the second / final operationroller driving channel 609 of the second / final operation roller 607. The seaming chuck toolplanar driving surface 602 is preferably located about a lower edge of the seaming chuck toolconical driving wall 601. Alternatively, the seaming chuck toolplanar driving surface 602 can be formed within a portion of the seaming chuck toolconical driving wall 601. The seaming chuck toolplanar driving surface 602 is preferably designed to provide a compression force to the seamingchuck shoulder 524 without coming into contact with the cylindrical sidewall invertedcountersink 570 of theresealable container cap 560. The seaming chuck toolcap clearance cavity 603 extends upward into the seamingchuck tool 600, wherein the seaming chuck toolcap clearance cavity 603 is designed to provide clearance for features extending upward from the resealable container capplanar traversing wall 564 of theresealable container cap 560, such as a pair of resealable containercap grip elements 574. The cylindrical sidewall invertedcountersink 570 of theresealable container cap 560 is preferably designed and positioned relative to the seamingchuck shoulder 524 so that the cylindrical sidewall invertedcountersink 570 does not come into contact with any part of the seamingchuck tool 600 during the seaming process. The seaming chuck toolconical driving wall 601 and the seaming chuck toolplanar driving surface 602 apply a compression force upon the seamingchuck wall 522 and the seamingchuck shoulder 524 of theresealable container lid 510 to ensure a bottom surface of the seamingpanel 520 is properly seated against an upper surface of thecontainer seaming panel 106. - A first operation roller driving channel first operation
roller driving channel 606, formed in a contacting surface of thefirst operation roller 604, rolls the seamingpanel 520 and the respective portion of thecontainer seaming panel 106, as shown inFIG. 84 . The first operation roller driving channel first operationroller driving channel 606 is formed as a semi-circular groove within a cylindrical sidewall of thefirst operation roller 604. In a preferred process, thefirst operation roller 604 rotates about a first operation rollerrotational axis 605 and the seamingchuck tool 600 rotates the containercylindrical sidewall 102 and the associatedresealable container lid 510 against the first operation roller driving channel first operationroller driving channel 606 of thefirst operation roller 604. The contact between the first operation roller driving channel first operationroller driving channel 606 and the seamingpanel 520 in conjunction with the resulting forces rolls the combination of the seamingpanel 520 and thecontainer seaming panel 106 together. Subsequently, a second / final operation roller 607, employing a second / final operationroller driving channel 609 in a similar manner to the first operation roller driving channel first operationroller driving channel 606 of thefirst operation roller 604 compresses the rolled formation into a compressed formation, as shown inFIG. 85 . The second / final operationroller driving channel 609 is formed as an oblong, rectangular groove within a cylindrical sidewall of the second / final operation roller 607. - In a preferred process, the second / final operation roller 607 rotates about a second (final) operation
roller spin axis 608 and the seamingchuck tool 600 rotates the containercylindrical sidewall 102 and the associatedresealable container lid 510 against the second / final operationroller driving channel 609 of the second / final operation roller 607. The contact between the second / final operationroller driving channel 609 and the rolled version of the seamingpanel 520 in conjunction with the resulting forces compresses the combination of the seamingpanel 520 and thecontainer seaming panel 106 together. The compressed shape creates a sealed seam between the seamingpanel 520 and thecontainer seaming panel 106. The completed container assembly is referred to as aresealable container 500 and the completed seam is referred to as a container body andlid assembly seam 509, as shown inFIG. 85 . - Once sealed, the
resealable container 500 is subjected to a process referred to a retort, where the contents of theresealable container 500 are heated. The heat increases an internal pressure within theresealable container 500. The increased pressure deforms theresealable container lid 510 of theresealable container 500. More specifically, because of the shape of the features of theresealable container 500, the increased pressure deforms the cap receivingsocket bottom wall 534 of theresealable container lid 510 upward into a domed or bulged shape as indicated by the upward directing arrow inFIGS. 86 ,87 , which draws the peripheral edge of cap receiving socket bottom wall 534 (essentially, the peripheral countersink 526) inward, as indicated by the pair of radially inwardly directed arrows located adjacent to each sectioned view of theperipheral countersink 526. Theresealable container lid 510 and theresealable container cap 660 are shown in a pre-retort, original shape inFIG. 86 . Theresealable container lid 510 and theresealable container cap 660 are shown in a deformed, bulged shape during the retort process inFIG. 87 . A magnified view of theperipheral countersink 526, illustrated inFIG. 88 , introduces the deflections imposed upon the features of theresealable container lid 510 and theresealable container cap 660 during the retort process. Brokentangent lines respective assembly segments tangent lines respective assembly segments resealable container lid 510 and theresealable container cap 660 are shown in a post-retort, residual deformed shape inFIG. 89 . - In an original shape of the container lid assembly, prior to exposure to the retort process, the
peripheral countersink 526 is formed having a outer peripheral countersinkwall pre-retort geometry 610 on an outer, distal region and a inner peripheral countersinkwall pre-retort geometry 612 on an inner, proximal region. Additionally, the cap receivingsocket bottom wall 534 is referred to as a cap receiving socket bottomwall post-retort geometry 624. The outer peripheral countersinkwall pre-retort geometry 610 is formed along an outer peripheral countersink wall pre-retortgeometry angle delineator 611. The inner peripheral countersinkwall pre-retort geometry 612 is formed along an inner peripheral countersink wall pre-retortgeometry angle delineator 613. The cap receiving socket bottomwall post-retort geometry 624 is formed along a cap receiving socket bottom wall pre-retortgeometry angle delineator 615. In a pre-retort condition, the outer peripheral countersinkwall pre-retort geometry 610 and the inner peripheral countersinkwall pre-retort geometry 612 are generally vertically oriented. Additionally, the cap receiving socket bottomwall pre-retort geometry 614 is generally planar and substantially horizontally oriented. - In a shape of the container lid assembly during the retort process, the outer peripheral countersink
wall pre-retort geometry 610 is reshaped into a outer peripheral countersinkwall post-retort geometry 620 on the outer, distal region and the inner peripheral countersinkwall pre-retort geometry 612 is reshaped into a inner peripheral countersinkwall post-retort geometry 622 on the inner, proximal region of theperipheral countersink 526. Additionally, the cap receiving socket bottomwall pre-retort geometry 614 is reshaped into a cap receiving socket bottomwall post-retort geometry 624. The outer peripheral countersinkwall post-retort geometry 620 is formed along an outer peripheral countersink wall post-retortgeometry angle delineator 621. The inner peripheral countersinkwall post-retort geometry 622 is formed along an inner peripheral countersink wall post-retortgeometry angle delineator 623. The cap receiving socket bottomwall post-retort geometry 624 is formed along a cap receiving socket bottom wall post-retortgeometry angle delineator 625. During this process, the cap receiving socket bottomwall pre-retort geometry 614 transitions from a generally planar shape to a convex or bulged shape, identified as a cap receiving socket bottomwall post-retort geometry 624. This geometric condition reduces the diameter of the peripheral edge of the cap receiving socket bottom wall 534 (cap receiving socket bottom wall pre-retort geometry 614). This reduction in the diameter of the peripheral edge of the cap receivingsocket bottom wall 534 draws the upper edge of the inner peripheral countersinkwall pre-retort geometry 612 inward, angling the inner peripheral countersinkwall pre-retort geometry 612 respectively, which is subsequently referred to as a inner peripheral countersinkwall post-retort geometry 622. The reshaping of the inner peripheral countersinkwall pre-retort geometry 612 to the inner peripheral countersinkwall post-retort geometry 622 pulls theperipheral countersink 526 inward, impacting the lower edge of the cap receiving socketcylindrical sidewall 532. The resulting motion draws the lower edge of the outer peripheral countersinkwall pre-retort geometry 610 inward, angling the outer peripheral countersinkwall pre-retort geometry 610 respectively, which is subsequently referred to as an outer peripheral countersinkwall post-retort geometry 620. - In a post-retort shape of the
resealable container lid 510, the reshapedassembly segments - The design of the
resealable container cap 660, more specifically a cylindrical sidewall invertedcountersink 670 provides a flexible transition between the resealable container cap cylindricalexterior sidewall 662 and resealable container cap cylindricalinterior sidewall 663, which accommodates a reshaping of the resealable container capplanar traversing surface 664 when theresealable container cap 660 is assembled onto the outer peripheral countersinkwall pre-retort geometry 610. This reshaping results from a force applied to the resealable container capplanar traversing surface 664 by the cap receivingsocket bottom wall 534 on theresealable container lid 510 during the retort process. A separation between the resealable container capplanar traversing surface 664 and cap receivingsocket bottom wall 534 may be maintained by the off-center tamperindicator operation element 529 being in mechanical contact with the upper surface of the resealable container lid uppersurface reinforcement formation 518, maintaining the relative separation between the resealable container capplanar traversing surface 664 and the cap receivingsocket bottom wall 534 during the retort process in order to prevent the offset projectingincisor 668 from prematurely placing a fracturing forcing upon the cap receiving socket bottom panelcircular score line 536. Additionally, the reshaping of the cap receiving socketcylindrical sidewall 532 during the retort process, more specifically, the outer peripheral countersinkwall pre-retort geometry 610, impinges cam tracks 552, 554, 556 into therespective cam followers resealable container cap 660 onto theresealable container lid 510 during the maximum deformation during the retort process. - The design of the
resealable container cap 660, more specifically, the resealable container cap cylindricalexterior sidewall 662 is adapted to accommodate the changes in shape of theperipheral countersink 526 of theresealable container lid 510 during and subsequent to the retort process. The end result enables rotational motion of the resealable container cap cylindricalexterior sidewall 662 within theperipheral countersink 526 by the consumer after completion of the retort process. This avoids any binding between thecam followers peripheral countersink 526, while retaining thecam followers cylindrical sidewall 532 resulting from the retort process is adapted to enhance the engagement between thecam followers - The resulting post-retort shape is shown in a cross sectioned view of the
resealable container 500, as presented inFIG. 89 . - The
resealable container 500 can include features enabling nesting betweenassemblies 500, as shown inFIG. 90 . A container closedbottom wall 504 of theresealable container 500 includes a clearance to accommodate upward extending features, such as the pair of resealable containercap grip elements 674. A countersink or other feature can be formed within the container closedbottom wall 504, wherein the countersink is shaped and sized to nest within an interior of the container body andlid assembly seam 509 of the seamingchuck tool 600. - Such as the
resealable container cap 560 can include variations, theresealable container lid 510 is also open to variations in the design. For example, aresealable container lid 710, shown inFIGS. 91 through 94 , introduces a variation in the layout of the cap receiving socket bottom panelcircular score line 736 compared to the layout of the cap receiving socket bottom panelcircular score line 536 of theresealable container lid 510. Theresealable container lid 710 includes features that are similar to those of theresealable container lid 510. Like features of theresealable container lid 710 and theresealable container lid 510 are numbered the same except preceded by the numeral '7'. In theresealable container lid 510, as best shown inFIG. 44 , the cap receiving socket bottom panelcircular score line 536 is routed through each of the opposing sidewalls of theincisor pathway channel 517 and across a bottom surface of theincisor pathway channel 517. Conversely, the cap receiving socket bottom panelcircular score line 736 is routed passing across an upper tangential edge of the associated end (identified as an incisor channel to tear panel surface transition 792) of theincisor pathway channel 717, as best shown inFIG. 93 . The score line fracture thinnedinitiation region 746 would be formed extending inward from an exterior or exposed surface of the resealable container lid uppersurface reinforcement formation 718, down an end wall on the incisor pathway channel 717 (essentially, the incisor channel to tear panel surface transition 792). A score line thinnedregion seal reinforcement 747 is preferably applied to an opposite or interior surface of the resealable container lid uppersurface reinforcement formation 718, more specifically, about the region of the score line fracture thinnedinitiation region 746 routed passing across an upper tangential edge of the associated end (incisor channel to tear panel surface transition 792) of theincisor pathway channel 717, as shown in the underside views presented inFIGS. 92 and94 . The score line thinnedregion seal reinforcement 747 can be of the same material used to form acap sealing ring 565 to optimize fabrication steps and costs. The score line thinnedregion seal reinforcement 747 retains a seal should the score line fracture thinnedinitiation region 746 fracture prematurely. Alternatively, the score line fracture thinnedinitiation region 746 can be configured to cut completely though theresealable container lid 510 material substrate, relying on the score line thinnedregion seal reinforcement 747 to maintain a sealed container. - The cap receiving socket bottom panel
circular score line resealable container lid 810, shown inFIGS. 95 through 105 , introduces a multi-step process for forming a cap receiving socket bottom panelcircular score line 836. Theresealable container lid 810 includes features that are similar to those of theresealable container lid resealable container lid 810 and theresealable container lid circular score line 836 employs a first incisorpathway index formation 894 and an second incisorpathway index formation 896. The first incisorpathway index formation 894 is located on a first end of anincisor pathway channel 817, wherein the first end includes an incisor channel to tearpanel surface transition 892. The second incisorpathway index formation 896 is formed at a second end of theincisor pathway channel 817, which is preferably located proximate atear panel hinge 839. The first incisorpathway index formation 894 and the second incisorpathway index formation 896 are formed using a more repeatable and accurate forming process than the process forming the ends of theincisor pathway channel 817. Additionally, the geometric shape of the indexing features 894, 896 are such to provide more accurate indexing registration than the shape of the ends of the incisor pathway channelincisor pathway channel 817, and to provide a more accurate geometric shape to form the cap receiving socket bottom panelcircular score line 836 and respective features. A lid bottom score line thinnedformation region 895, introduced inFIG. 96 , can be formed in an opposite or interior surface of the first incisorpathway index formation 894, more specifically about the region of the score line fracture thinnedinitiation region 846 of the cap receiving socket bottom panelcircular score line 836. - The multi-step process for forming a cap receiving socket bottom panel
circular score line 836 is demonstrated in a series of illustrations presented inFIGS. 97 through 105 . Since the scoring process thins the material of theresealable container lid 810, the majority of the features of theresealable container lid 810 are initially created as shown inFIG. 97 . This includes theincisor pathway channel 817. The indexing features 894, 896 are subsequently formed at the respective ends of theincisor pathway channel 817, as shown inFIG. 98 , using a lidalignment feature anvil 910A and a lid alignmentfeature punch tool 960A, introduced inFIG. 101 . The lid alignmentfeature punch tool 960A includes a first incisor pathwayindex formation punch 994 and a second incisor pathwayindex formation punch 996 extending downward from a lid alignment feature punch toolbottom surface 964 of a lid alignment featurepunch tool body 962. The lidalignment feature anvil 910A includes features formed within a cap receiving socketbottom wall anvil 934 of a cap receiving socketcylindrical anvil body 932 to adequately support theresealable container lid 810. A resealable container lid upper surfacereinforcement formation anvil 918 is recessed into the cap receiving socketbottom wall anvil 934 to accommodate the resealable container lid uppersurface reinforcement formation 818. A socket bottom wall to surface reinforcementformation transition anvil 941 provides a transition between the cap receiving socketbottom wall anvil 934 and the resealable container lid upper surfacereinforcement formation anvil 918. An incisorpathway channel anvil 917 is recessed into the resealable container lid upper surfacereinforcement formation anvil 918 to accommodate theincisor pathway channel 817. The shapes of the resealable container lid upper surfacereinforcement formation anvil 918 and the incisorpathway channel anvil 917 are used as initial registration or alignment features between the partially completedresealable container lid 810 and the lidalignment feature anvil 910A. A first incisor pathwayindex formation anvil 993 and a second incisor pathwayindex formation anvil 997 are formed at ends of the incisorpathway channel anvil 917 for receiving material being deformed by the first incisor pathwayindex formation punch 994 and the second incisor pathwayindex formation punch 996, respectively. A gap between the first incisor pathwayindex formation punch 994 and the first incisor pathwayindex formation anvil 993 is substantially the same as a thickness of the material of the first incisorpathway index formation 894. Similarly, a gap between the second incisor pathwayindex formation punch 996 and the second incisor pathwayindex formation anvil 997 is substantially the same as a thickness of the material of the second incisorpathway index formation 896. The first incisor pathwayindex formation punch 994 and the second incisor pathwayindex formation punch 996 are used to maintain alignment between the strikes of the progressive stations of the first score linesegment punch tool 960B and the second score linesegment punch tool 960C. - A first score line
segment punch tool 960B is similar to the lid alignmentfeature punch tool 960A, with the introduction of a first score line formation segment punches 933. The first score line formation segment punches 933 is divided into two segments, each segment extends between a respective first score line formation segment punch ends ready foroverlap 938 and tear panel hingeformation punch area 939. Theresealable container lid 810 would be seated within a subsequent lidalignment feature anvil 910A in the manufacturing process, employing the registration features 993, 997 on the lidalignment feature anvil 910A and respective registration features 894, 896 on theresealable container lid 810 to ensure accurate alignment. The first score linesegment punch tool 960B would then be employed to create in at least one first scoreline formation segments 833 as shown inFIG. 99 . - A second score line
segment punch tool 960C is similar to the lid alignmentfeature punch tool 960A, with the introduction of a score line fracture thinned initiation region punch 946 extending between two score line segment overlapping region punches 947. Each score line segment overlapping region punches 947 is located to align or overlap with the respective location of the first score line formation segment punch ends ready foroverlap 938 of the lid alignment feature with lid bottom score line thinnedformation anvil 910B. This creates onecontinuous score line 836. Theresealable container lid 810 would remain seated within the lid bottom score line thinnedformation anvil 910B and the second score linesegment punch tool 960C would be employed to create a score line fracture thinnedinitiation region 846 extending between each score linesegment overlapping regions 847 as shown inFIG. 100 . The first incisor pathwayindex formation punch 994 and the second incisor pathwayindex formation punch 996 are used to maintain alignment between the strikes of the first score linesegment punch tool 960B and the second score linesegment punch tool 960C. - The score line fracture thinned initiation region punch 946 can include a slight convex dome, as best shown in a magnified view illustrated in
FIG. 105 (noting the lid alignmentfeature punch tool 960 and the lid bottom score line thinnedformation anvil 910B are separated from theresealable container lid 810 for clarity of the features). The lid bottom score line thinnedformation region anvil 995 can also include a slight convex dome, as best shown in a magnified view illustrated inFIG. 105 . Theseconvex domes pathway index formation 894, more specifically forming a score line fracture thinnedinitiation region 846 on an upper surface of the first incisorpathway index formation 894 and a lid bottom score line thinnedformation region 895 on the opposite, lower surface of the first incisorpathway index formation 894. The convex domes of the second score linesegment punch tool 960C (or the complete score linesegment punch tool 960D) and the lid bottom score line thinnedformation anvil 910B are provided to direct a flow of the material outward along a planar direction of the material (perpendicular to the generally vertical axis of the press action). - In a more common embodiment, the cap receiving socket bottom panel
circular score line 836 and its respective features can be formed using a single strike punch, such as a complete scoreline punch tool 960D working against the lid alignment feature with lid bottom score line thinnedformation anvil 910B, illustrated inFIG. 104 . - A
resealable container lid 1010, shown inFIGS. 106 through 112 , introduces yet another variant of an opening configuration. Theresealable container lid 1010 includes features that are similar to those of theresealable container lid 810. Like features of theresealable container lid 1010 and theresealable container lid 810 are numbered the same except preceded by the numeral '10', unless otherwise stated. Theresealable container lid 1010 includes a cap receiving socket bottom panelcircular score line 1036 having aninitial fracturing portion 1046 formed within a first incisor pathway refinedchamfer face 1094 at one end of theincisor pathway channel 1017, best shown in the magnified section of the illustration presented inFIG. 109 . Theinitial fracturing portion 1046 can be created having an angled trough or recess. Theincisor pathway channel 1017 can be fabricated using a single punch process, or, preferably, a multi-step forming process. The exemplary ends of theincisor pathway channel 1017 are formed having a chamfered, linear end walls to enhance registration functions or the formation of a score line cap receiving socket bottom panelcircular score line 1036 or at least onescore line feature circular score line 1036 is routed into the debossed region of the first incisor pathway refinedchamfer face 1094 creating an overlapping region between the cap receiving socket bottom panelcircular score line 1036 and the score line fracture thinnedinitiation region 1046, identified as a score linesegment overlapping region 1047. The initial fracturing portion of the cap receiving socket bottom panelcircular score line 1036 and the associated score line fracture thinnedinitiation region 1046 formed on an interior surface of the first incisor pathway refinedchamfer face 1094 on theresealable container lid 1010. Theresealable container lid 1010 introduces a pair of lid bottom score line hingecreases 1095 are formed on a bottom surface of theresealable container lid 1010 proximate the score line fracture thinnedinitiation region 1046, as shown inFIG. 107 , and preferably arranged flanking each of two vertical edges thereof. Each of the pair of lid bottom score line hinge creases 1095 is preferably arranged in a vertical orientation or tangential with the arch of theincisor pathway channel 1017. - In use, the offset projecting incisor 568 (not shown) would travel along the
incisor pathway channel 1017 approaching the score line fracture thinnedinitiation region 1046 within the first incisor pathway refinedchamfer face 1094. The offset projectingincisor 568 then contacts and applies an opening force onto the score line fracture thinnedinitiation region 1046, causing the score line fracture thinnedinitiation region 1046 to fracture. The fracturing of the score line fracture thinnedinitiation region 1046 reduces the strength of the region, enabling a reduced force to fracture the score linesegment overlapping region 1047 and subsequently the cap receiving socket bottom panelcircular score line 1036. The lid bottom scoreline hinge crease 1095 directs the material about the score line fracture thinnedinitiation region 1046 to fold outward, introducing a clearance for free passage of the offset projectingincisor 568 to exit the end ofincisor pathway channel 1017 while continuing a downward force on the incisor channel to tearpanel surface transition 1092 to further propagate fracturing of the cap receiving socket bottom panelcircular score line 1036. The process of separating the cap receiving socket bottompanel tear panel 1038 from the resealable container lid uppersurface reinforcement formation 1018 continues as previously described in other variants, with the offset projectingincisor 568 applying a downward force to the incisor channel to tearpanel surface transition 1092 in conjunction with various vertical applying force generating features engaging with one another, such as theincisor deboss panel 566 engaging with the lead in supplemental score fracture propagation and tearpanel support boss 1097. - A
resealable container lid 1110, shown inFIGS. 113 through 126 , introduces a variant that retains theresealable container cap 1160 within the cap receiving socket of theresealable container lid 1110. Theresealable container lid 1110 includes features that are similar to those of theresealable container lid 510. Like features of theresealable container lid 1110 and theresealable container lid 510 are numbered the same except preceded by the numeral '11' unless otherwise stated, wherein the variant of thecontainer lid 510 is adapted to retain aresealable container cap 1160 and theresealable container lid 1110 as an assembly throughout the use thereof. The key distinction between theresealable container lid 1110 and theresealable container lid 510 is the formation of the cam tracks 1152, 1154, 1156, more specifically shown reflecting upon the first socket cap retainingcam track 1152 as an exemplary cam track, a cam track camfollower locking section 1152E, as best shown inFIG. 126 . The cam track camfollower locking section 1152E is routed downward compared to the cam track camfollower leader section 552E ofFIG. 53 , which is routed upward. Theresealable container cap 1160 includes additional features related to the primary intention of this variant, wherein theresealable container lid 1110 and theresealable container cap 1160 are designed to remain assembled to one another. A resealable containercap dispensing aperture 1161 is introduced through a resealable container capplanar traversing surface 1164 of theresealable container cap 1160. The resealable containercap dispensing aperture 1161 is located in rotational alignment with an opening defined by the cap receiving socket bottom panelcircular score line 1136 of theresealable container lid 1110, as shown inFIGS. 122 and123 . A tear panel conformingsealing gasket 1165 is carried by an underside of the resealable container capplanar traversing surface 1164. The tear panel conformingsealing gasket 1165 is located in rotational alignment with the opening defined by the cap receiving socket bottom panelcircular score line 1136 of theresealable container lid 1110, but offset from the resealable containercap dispensing aperture 1161, as shown inFIG. 117 . The tear panel conformingsealing gasket 1165 can be of any suitable shape to adequately seal the opening defined by the cap receiving socket bottom panelcircular score line 1136 of theresealable container lid 1110. In the exemplary embodiment, the tear panel conformingsealing gasket 1165 is teardrop shaped to accommodate the shape of the dispensing aperture, more specifically, the region about thetear panel hinge 1139. The resealable containercap dispensing aperture 1161 enables access and dispensing of contents from within a breachedresealable container lid 1110 of theresealable container 1100. The tear panel conformingsealing gasket 1165 seals the opened container after the cap receiving socket bottom panelcircular score line 1136 has been fractured and the cap receiving socket bottompanel tear panel 1138 has been bent away from the resealable container lid uppersurface reinforcement formation 1118. Theresealable container cap 1160 is retained within a cap receiving socket of theresealable container lid 1110 by the shape of the cam tracks. The cam track assembly /locking detent 1152A limits the motion of therespective cam follower 1181 in a clockwise direction. The modification to the cam track camfollower locking section 1152E limits the motion of therespective cam follower 1181 in a counterclockwise direction. The same rotational limitations are provide by each can track 1152, 1154, 1156 andrespective cam follower cam follower 1181 is located at the cam track initial / resealedsection 1152B segment of the first socket cap retainingcam track 1152. The remainingcam followers respective cam tracks resealable container cap 1160 in a fixed rotational position during shipping, distribution, sale, etc. until use. In use, the consumer would rotate theresealable container cap 1160 in a counterclockwise motion causing the offset projectingincisor 1168 to fracture the cap receiving socket bottom panelcircular score line 1136 in a manner similar to the offset projectingincisor 568 fracturing the cap receiving socket bottom panel circular score line 536 (previously described above). As theresealable container cap 1160 continues to rotate, the resealable containercap dispensing aperture 1161 is positioned over the dispensing aperture defined by the fractured cap receiving socket bottom panelcircular score line 1136, as shown inFIGS. 123 ,124 . When the consumer decides they are finished dispensing a desired volume of the contents from with theresealable container 1100, the consumer rotates theresealable container cap 1160 in a clockwise direction, aligning the tear panel conformingsealing gasket 1165 over the dispensing aperture defined by the fractured cap receiving socket bottom panelcircular score line 1136, as shown inFIGS. 124 and125 . Additional illustrations are included to adequately present details of theresealable container lid 1110 and the respectiveresealable container cap 1160 as well as the interactions with one another. - All of the above configurations employ a counterclockwise rotation for fracturing the cap receiving socket bottom panel
circular score line resealable container lid resealable container cap resealable container lid - It is understood that the container lid can be modified to use a reusable or separately available version of a container cap. A
resealable container lid 1210 is adapted to receive a reusable or separately available version of a container cap, such as a container lid socket engagingopening tool 1260, as shown inFIGS. 127 through 135 . Theresealable container lid 1210, detailed inFIGS. 127 through 129 , includes features that are similar to those of theresealable container lid 510. Like features of theresealable container lid 1210 and theresealable container lid 510 are numbered the same except preceded by the numeral '12'. In this configuration, theresealable container 1200 would be manufactured, distributed, and sold excluding the container lid socket engagingopening tool 1260, which would be a sealed version of the container shown inFIG. 134 . In theresealable container lid 510, the cap receiving socket bottom panelcircular score line 536 and the other respective opening features are oriented to accommodate a counterclockwise rotation of theresealable container cap 560 to fracture the cap receiving socket bottom panelcircular score line 536 and open the cap receiving socket bottompanel tear panel 538 thereof. Conversely, in theresealable container lid 1210, the cap receiving socket bottom panel clockwise openingcircular score line 1236 and the other respective opening features are oriented to accommodate a clockwise rotation of the container lid socket engagingopening tool 1260 to fracture a cap receiving socket bottom panel clockwise openingcircular score line 1236 and open a clockwiseopening tear panel 1238 thereof. Essentially, the cap receiving socket bottom panel clockwise openingcircular score line 1236 and the other respective opening features are a mirror image of the cap receiving socket bottom panelcircular score line 536 and the other respective opening features. - The concept no longer requires the features to entrap the offset projecting
incisor 568 within theincisor pathway channel 517 and just prior to the incisor channel to tearpanel surface transition 592, as the container lid socket engagingopening tool 1260 is no longer pre-assembled to theresealable container lid 1210. One additional benefit of this configuration is that the container lid socket engagingopening tool 1260 can be axially symmetric, enabling assembly of the container lid socket engagingopening tool 1260 to theresealable container lid 1210 in any of three orientations. Although the exemplary embodiment mirrors the features of the container lid socket engagingopening tool 1260 in three 120 degree angular sections, it is understood that theresealable container lid 1210 and the container lid socket engagingopening tool 1260 can be design having any suitable number of like angular sections. - The container lid socket engaging
opening tool 1260, detailed inFIGS. 130 through 133 , is a variant of theresealable container cap 560, and includes features that function similar to those of theresealable container cap 560. Like features of the container lid socket engagingopening tool 1260 and theresealable container cap 560 are numbered the same except preceded by the numeral '12', unless otherwise stated. The container lid socket engagingopening tool 1260 can be formed using any suitable manufacturing process. The exemplary container lid socket engagingopening tool 1260 is fabricated using a molding process. The container lid socket engagingopening tool 1260 includes a openingtool exterior sidewall 1262 carrying a plurality of likecam followers 1281 extending radially outward therefrom, being equidistantly spaced about a lower peripheral edge thereof. An opening toolcontainer overlapping sidewall 1271 spatially circumscribes the openingtool exterior sidewall 1262 of the container lid socket engagingopening tool 1260 forming an opening tool container body and lid assembly seam cavity 1270 therebetween. The opening tool container body and lid assembly seam cavity 1270 is sized and shaped to fit over a container body andlid assembly seam 1209 of aresealable container 1200. A plurality of gripping features, such as a openingtool grip elements 1274 and respective opening tool grip element force application surfaces 1275) are formed about the radial, exterior surface of the opening toolcontainer overlapping sidewall 1271. A plurality of openingtool dispensing aperture 1261 is formed through the opening toolplanar traversing surface 1264. Each openingtool dispensing aperture 1261 would be located to rotate into a position enabling dispensing of contents from within theresealable container 1200. - A plurality of
incisors 1268 extend axially downward from a sealing surface of the opening toolplanar traversing surface 1264, theincisors 1268 being equidistantly spaced and equidistant from a rotational axis of the container lid socket engagingopening tool 1260. Any of theincisors 1268 can be used for initiating a fracture of the cap receiving socket bottom panel clockwise openingcircular score line 1236. - In use, the container lid socket engaging
opening tool 1260 would be assembled onto theresealable container lid 1210 by aligning each opening tool formedcam follower 1281 with eachinter-cam relief section cam follower 1281 beneath eachcam track follower leader section 552E previously described. The upward angled end of therespective cam track cam follower 1281 into the generally horizontally arranged segment of thecam track track operating segment 552D. The consumer would continue to rotation the container lid socket engagingopening tool 1260 in a clockwise motion to fracture the cap receiving socket bottom panel clockwise openingcircular score line 1236 at the incisor channel to tearpanel surface transition 1292 and subsequently propagate the fracture of a cap receiving socket bottom panel clockwise openingcircular score line 1236, while folding or bending a clockwiseopening tear panel 1238 away from a resealable container lid uppersurface reinforcement formation 1218 along a clockwise openingtear panel hinge 1239, as shown inFIG. 135 . Once the complete cap receiving socket bottom panel clockwise openingcircular score line 1236 is fractured and the clockwiseopening tear panel 1238 is folded away from the resealable container lid uppersurface reinforcement formation 1218, the container lid socket engagingopening tool 1260 is rotated into a position aligning one openingtool dispensing aperture 1261 with the dispensing aperture created by the fractured cap receiving socket bottom panel clockwise openingcircular score line 1236. The clockwise rotation of the container lid socket engagingopening tool 1260 is limited by a downward turn of eachrespective cam track locking detent segment 552A previously introduced. The container lid socket engagingopening tool 1260 is removed by rotating the container lid socket engagingopening tool 1260 in a counterclockwise direction until each opening tool formedcam followers 1281 is placed into the respectiveinter-cam relief section cam followers 1281 is placed into the respectiveinter-cam relief section opening tool 1260 can be lifted from the cap receiving socket of theresealable container lid 1210. It is noted that theexemplary cap 1260 does not include features enabling resealing of the compromised or openedresealable container lid 1210. The container lid socket engagingopening tool 1260 can be modified to include a sealing feature. Alternatively, other caps can be employed to seal the compromised or openedresealable container lid 1210. In yet another configuration, the container lid socket engagingopening tool 1260 can be exclusive of the openingtool dispensing aperture 1261, simply providing an opening function. - Previous variants include a seal between the
cap sealing ring 565, located on a bottom surface of the resealable container capplanar traversing wall 564 of theresealable container cap 560 and a cap receivingsocket bottom wall 534 of theresealable container lid 510. In another variant, the seal can be provided between features of the vertical sidewall of theresealable container cap 560 and theresealable container lid 510. This variant is employed between aresealable container lid 1310 and aresealable container cap 1360, which are described inFIGS. 136 through 146 . - The
resealable container lid 1310, detailed inFIGS. 136 and137 , is a variant of theresealable container lid 510, and includes features that function similar to those of theresealable container lid 510. Like features of theresealable container lid 1310 and theresealable container lid 510 are numbered the same except preceded by the numeral '13'. Theresealable container cap 1360, detailed inFIGS. 138 and139 , is a variant of theresealable container cap 560, and includes features that function similar to those of theresealable container cap 560. Like features of theresealable container cap 1360 and theresealable container cap 560 are numbered the same except preceded by the numeral '13'. - The
resealable container lid 1310 includes a frustum shaped interior surface of a frustum shaped cap seal engagingannular surface 1340, as best shown in a section view illustrated inFIG. 143 . The frustum shaped cap seal engagingannular surface 1340 extends axially between a cap receiving socketcylindrical sidewall 1332 and a seamingchuck shoulder 1324 of theresealable container lid 1310. The frustum shaped cap seal engagingannular surface 1340 is located between the functional cam region of theresealable container lid 1310 and the seaming panel elements, including the seamingchuck wall 1322 and the seamingpanel 1320. - The
resealable container cap 1360 includes a frustum shaped exterior surface of a frustum shaped cap sealingring surface 1367, as best shown in a section view illustrated inFIG. 143 . The frustum shaped cap sealingring surface 1367 extends axially between a resealable container capcylindrical exterior sidewall 1362 and a cylindrical sidewall invertedcountersink 1370 of the frustum shaped cap sealingring surface 1367. The frustum shaped cap sealingring surface 1367 is located between the region containing thefunctional cam followers resealable container cap 1360 and the cylindrical sidewall invertedcountersink 1370. A frustum shapedcap sealing ring 1365 is applied to the exterior surface of the frustum shaped cap sealingring surface 1367. The frustum shapedcap sealing ring 1365 can be of any suitable material, such as those previously suggested for thecap sealing ring 565. - When the
resealable container cap 1360 and theresealable container lid 1310 are assembled to one another, the frustum shapedcap sealing ring 1365 seals against the interior surface of the frustum shaped cap seal engagingannular surface 1340, as best shown inFIGS. 144 ,146 . The spatially arrangedcam followers respective cam track ring surface 1367 and the frustum shaped cap seal engagingannular surface 1340. - In the
resealable container cap 1360, a concentric tamperindicator operation element 1329 on a concentrictamper indicator feature 1328 is centrally located. The concentric tamperindicator operation element 1329 is supported by an upper surface of the resealable container lid uppersurface reinforcement formation 1318. The resealable container lid uppersurface reinforcement formation 1318 is supported by the pressure within the sealed interior of the container. Once the seal is compromised, the pressure is released, thus eliminating any support to and from the resealable container lid uppersurface reinforcement formation 1318. Without the support, the resealable container lid uppersurface reinforcement formation 1318 can flex axially, thus allowing the concentrictamper indicator feature 1328 to flex accordingly and report the breach of the container. - In yet another embodiment, a
resealable container lid 1410 and a respectiveresealable container cap 1460 are adapted to support a solid composition (i.e. food) storage and distribution container, wherein theresealable container lid 1410 is described inFIGS. 147 through 158 . - It is understood that the
resealable container lid 1410 can be used for smaller and larger food products, such as those mentioned above an additionally including chips, pretzels, potato sticks, larger nuts, larger spices, candies, span, thicker soups, spreadables, peanut butter, jelly, larger condiments (sauerkraut, relish), and the like. - The
resealable container lid 1410, detailed inFIGS. 147 and148 , is a variant of theresealable container lid 510, and includes features that function similar to those of theresealable container lid 510. Like features of theresealable container lid 1410 and theresealable container lid 510 are numbered the same except preceded by the numeral ' 14'. Theresealable container cap 1460, detailed inFIGS. 149 and150 , is a variant of theresealable container cap 560, and includes features that function similar to those of theresealable container cap 560. Like features of theresealable container cap 1460 and theresealable container cap 560 are numbered the same except preceded by the numeral '14'. - The
resealable container lid 1410 is provided with a removable sealed panel (not shown) spanning across a lower end thereof, or as a ring shaped element having a containerlid dispensing aperture 1461. In a configuration where theresealable container lid 1410 includes a removable sealed panel spanning across a lower end thereof, the peripheral edge of the sealing panel can be defined by a score line. The removable seal can be opened and removed using any suitable element, such as a pull tab. The removable panel may also be of a plastic or metal foil material bonded to the lower end of theresealable container lid 1410. In a configuration excluding the removable seal bottom panel, a lower edge of the resealable container capcylindrical exterior sidewall 1462 can be formed, introducing a peripheralbottom edge fold 1426 as a fold to reinforce the lower edge of the resealable container capcylindrical exterior sidewall 1462 of theresealable container lid 1410 and to minimize any risk of injury. - The
resealable container lid 1410 is assembled to the containercylindrical sidewall 102 using the same methods previously described. The exclusion of the cap receivingsocket bottom wall 534 in theresealable container lid 1410 suggests modifications to the pneumatically operated concentrictamper indicator feature 1428. The pneumatically operated concentrictamper indicator feature 1428 excludes a tamper indicator operation element, as theresealable container lid 1410 excludes a cap receiving socket bottom wall, rendering the tamper indicator operation element as being of no use. The pneumatically operated concentrictamper indicator feature 1428 obtains support directly from pressure differential within the sealed contents section of the container. - The container lid cap can include a grip of any suitable configuration. The previous container lid caps 160, 260, 360, 460, 560, 660, 1160, 1360, 1460, each included a grip formation extending upward from a resealable container cap base element or
planar traversing wall opening tool 1260 includes a grip element formed on a radially exterior surface of the opening toolcontainer overlapping sidewall 1271. Aresealable container cap 1560, detailed inFIGS. 159 and160 , introduces a debossed grip configuration resealable container capgrip element cavity 1574 extending inward into an interior region of theresealable container cap 1560. Theresealable container cap 1560 includes features having similar function to those of theresealable container cap 1360. Like features of theresealable container cap 1560 and theresealable container cap 1360 are numbered the same except preceded by the numeral '15', unless otherwise stated. Since the sealing features (frustum shapedcap sealing ring 1565 carried by a frustum shaped cap sealing ring surface 1567) are employed to provide a seal, a lower surface of the resealable container capplanar traversing surface 1564 is no longer mandated to contact the cap receivingsocket bottom wall 1334, thus eliminating design constraints imposed by thecap sealing ring 565 of theresealable container cap 560. This enables the resealable container capplanar traversing surface 1564 to extend radially inward from an upper edge of the resealable container cap cylindricallower exterior sidewall 1562. Theresealable container cap 1560 can include a resealable container cap cylindricalupper exterior sidewall 1563, providing a transition between an upper edge of the resealable container cap cylindricallower exterior sidewall 1562 and the outer edge of the resealable container capplanar traversing surface 1564. The height of theresealable container cap 1560 would preferably be designed to retain an uppermost surface thereof at or below an uppermost edge of the seamingpanel 1320, as best shown inFIG. 165 . The resealable container cap cylindricalupper exterior sidewall 1563 and resealable container capplanar traversing surface 1564 are preferably designed to nest within the cavity of the seaming chuck toolcap clearance cavity 603 on the seamingchuck tool 600 during the seaming process of theresealable container lid 1310 to the container body. - Since the resealable container cap
planar traversing surface 1564 extends across a highest region of theresealable container cap 1560, the resealable container capgrip element cavity 1574 can be formed as a deboss, extending inward from the top surface of the resealable container capplanar traversing surface 1564. The resealable container capgrip element cavity 1574 includes a cap grip element cavityforce application surface 1575, functioning the same as the cap grip element force application surface 575 (previously described), while being a tubular interior surface thereof. An upper transition between the cap grip element cavityforce application surface 1575 and the resealable container capplanar traversing surface 1564 is chamfered, creating a comfort region for the consumer during the opening and resealing processes. A depth of the resealable container capgrip element cavity 1574 would place a bottom surface of the resealable container capgrip element cavity 1574 at a desired vertical position respective to an assembly reference feature, such as thecam followers lower exterior sidewall 1562, and the like. This locates a bottom surface of a cap grip bottom wallincisor deboss panel 1566 and a depth of a respective cap grip bottomwall projecting incisor 1568 adequately to properly interact with the opening features of theresealable container lid 1310 or other respective container lid, as best shown inFIGS. 165 ,167 . Assembly of theresealable container cap 1560 to theresealable container lid 1310 would be the same as previously described. The significant difference is the consumer would insert their fingers and/or a tool into the resealable container capgrip element cavity 1574, resting against the cap grip element cavityforce application surface 1575 to apply a torsional force thereto. Obviously, the resealable container capgrip element cavity 1574 would be designed to accommodate the consumer's fingers and/or an opening assistance tool. - Continuing with variations in grip designs, a
resealable container cap 1660, detailed inFIGS. 168 and169 , introduces another embossed grip configuration resealable containercap grip element 1674 extending upward from the resealable container capplanar traversing surface 1664 of theresealable container cap 1660. Theresealable container cap 1660 includes features having similar function to those of theresealable container cap 560. Like features of theresealable container cap 1660 and theresealable container cap 560 are numbered the same except preceded by the numeral '16'. - The
resealable container cap 560 includes a resealable containercap grip element 574 having a pinched shape to define the cap grip element force application surfaces 575. The resealable containercap grip element 1674 is formed having a more cylindrical shaped cap grip elementforce application surface 1675 terminating with a cap grip elementgrip enhancing feature 1676 circumscribing a distal edge of the cap grip elementforce application surface 1675 or a peripheral edge of a top panel thereof. It is recognized that the cap grip elementforce application surface 1675 and cap grip elementgrip enhancing feature 1676 as well as the entire resealable containercap grip element 1674 can be of any suitable shape. The preferred shape of the cap grip elementforce application surface 1675 is cylindrical for manufacturing and reliability purposes. The off-centertamper indicator feature 1628 can be located off-centered (as shown) or concentric with a resealable container cap cylindricalinterior sidewall 1663 of theresealable container cap 1660. Theresealable container cap 1660 would be assembled into any suitable container lid, such as the exemplaryresealable container lid 510 shown inFIG. 170 . It is noted that the resealable containercap grip element 1674 is of a height where an upper surface of each resealable containercap grip element 1674 is at or lower than a respective surface of the seamingpanel 520 when theresealable container cap 1660 is assembled within a cap receiving socket of theresealable container lid 510. - The consumer can use their fingers to apply an opening force directly to each cap grip element
force application surface 1675 of each resealable containercap grip element 1674. Alternatively, the consumer can employ a resealable container capopening assistance tool 1760, introduced inFIGS. 171 through 173 , to aid in rotating theresealable container cap 1660 to fracture the cap receiving socket bottom panelcircular score line 536 of theresealable container lid 510, separating and folding the cap receiving socket bottompanel tear panel 538 away from the resealable container lid uppersurface reinforcement formation 518. - The resealable container cap
opening assistance tool 1760 is preferably fabricated of a pliant material using a molding process. The resealable container capopening assistance tool 1760 includes a opening assistance tool uppercylindrical sidewall 1761 having a plurality of spatially arranged gripping sections (comprising opening assistancetool grip elements 1784, each opening assistancetool grip element 1784 extending outward from a peripheral surface of the opening assistance tool uppercylindrical sidewall 1761 by a pair of opening assistance tool force application surfaces 1785. An opening assistance tool lowercylindrical sidewall 1763 extends downward from a bottom surface of the opening assistance tool uppercylindrical sidewall 1761. The opening assistance tool lowercylindrical sidewall 1763 is sized and shaped to fit within the cap receiving cavity of theresealable container lid 510, more specifically to fit within the cavity defined by the resealable container cap cylindricalinterior sidewall 1663, as best shown inFIGS. 174 ,176 . The peripheral edge of the opening assistance tool uppercylindrical sidewall 1761 is sized to extend outward from a peripheral edge of the container to avoid any interference of the features of the container and associated container lidresealable container cap 560 during use of the resealable container capopening assistance tool 1760. At least one opening assistance tool capgrip receiving cavity 1774 is formed as a cavity extending inward from an opening assistancetool bottom wall 1764 of the opening assistance tool lowercylindrical sidewall 1763. Each of the at least one opening assistance tool capgrip receiving cavity 1774 includes a opening assistance toolgrip enhancing feature 1776 circumscribing an interior edge of a respective opening assistance toolforce application surface 1775. The opening assistance toolforce application surface 1775 and associated opening assistance toolgrip enhancing feature 1776 are of a size and shape to compliment the respective resealable containercap grip element 1674, more specifically, the cap grip elementforce application surface 1675 and the cap grip elementgrip enhancing feature 1676 of the resealable containercap grip element 1674, as best shown inFIGS. 174 ,176 . The quantity and location of each of the at least one opening assistance tool capgrip receiving cavity 1774 are determined by the quantity and location of each of the at least one resealable containercap grip element 1674. The pliant material of the resealable container capopening assistance tool 1760 enables the opening assistance tool capgrip receiving cavity 1774 to deform during an assembly step, compensating and allowing the enlarged cap grip elementgrip enhancing feature 1676 to pass through the slightly narrowed opening assistance toolforce application surface 1775 of the opening assistance tool capgrip receiving cavity 1774, until the cap grip elementgrip enhancing feature 1676 is seated into the opening assistance toolgrip enhancing feature 1776. Once the resealable container capopening assistance tool 1760 is properly seated and engaging theresealable container cap 1660, the user grasps thegrips cylindrical sidewall 1761, in conjunction with the pliant material aids the user in rotating theresealable container cap 1660 within theresealable container lid 510 during use. The engagement between the opening assistance toolgrip enhancing feature 1776 and the cap grip elementgrip enhancing feature 1676 enables the user to remove theresealable container cap 1660 from the cap receiving socket of theresealable container lid 510 by simply lifting the resealable container capopening assistance tool 1760 away from theresealable container lid 510. The engagement between the opening assistance toolgrip enhancing feature 1776 and the cap grip elementgrip enhancing feature 1676 retains the assembly of theresealable container cap 1660 to the resealable container capopening assistance tool 1760. - It is understood the resealable container cap
opening assistance tool 1760 can be fabricated of a more rigid, molded material. When manufactured using the more rigid material, the opening assistance toolforce application surface 1775 would be the same shape and size as the opening assistance toolgrip enhancing feature 1776, enabling insertion of each resealable containercap grip element 1674 into the respective opening assistance tool capgrip receiving cavity 1774. - It is understood that the opening assistance tool cap
grip receiving cavities 1774 of the resealable container capopening assistance tool 1760 can be incorporated into any of the other cavity shaped container lid caps 160, 260, 360, 460, 560, 660, 1160, 1360, 1460. - The container lid caps 560, 660, 1160, 1260, 1360, 1460 can be replaced by other container lid caps having more specialized features and related functions, as shown in the various configurations presented in
FIGS. 177 through 186 . These specialized caps can be included with the container, sold separately, or both. The specialized caps give the consumer the ability to adapt any container into a specialized application. - A first exemplary specialized cap is a drinking
straw socket accessory 1800, detailed inFIGS. 177 through 181 . The drinkingstraw socket accessory 1800 introduces a mason jar-like cap assembly design. The assembly design employs two elements, a stationary / axiallyoperable component 1810, which remains in a fixed rotational position, and a socketmating rotary actuator 1860, which rotates, assembling the drinkingstraw socket accessory 1800 to a respective container lid, such as theresealable container lid 510 or any other suitable container lid. The exemplary stationary / axiallyoperable component 1810 includes a cylindrical vertical wall circumscribing a peripheral edge of a socketaccessory traversing wall 1834. In an alternative version, the cylindricalvertical wall 1832 can extend downward from a bottom surface of the socketaccessory traversing wall 1834. A socket mating rotary actuator helical groovetrack cam follower 1880 is incorporated into the exterior surface of the cylindricalvertical wall 1832 of the stationary / axiallyoperable component 1810. A socketaccessory sealing ring 1865 is carried about a bottom edge of the cylindricalvertical wall 1832. A socket accessory off-centertear panel plug 1838 extends downward from an underside of the socketaccessory traversing wall 1834. The socket accessory off-centertear panel plug 1838 is adapted to engage with the dispensing aperture formed within the resealable container lid uppersurface reinforcement formation 518 when the cap receiving socket bottompanel tear panel 538 is folded into an opened configuration. The socket accessory off-centertear panel plug 1838 would preferably be shaped and sized to substantially or completely seal the dispensing aperture formed within the resealable container lid uppersurface reinforcement formation 518. This would avoid leakage of the contained beverage to an area between the socket accessory off-centertear panel plug 1838 and the socketaccessory sealing ring 1865. - In the exemplary embodiment, the socket accessory off-center
tear panel plug 1838 is adapted to receive and retain a drinkingstraw sealing gasket 1847. The drinkingstraw sealing gasket 1847 is designed to receive and retain adrinking straw 1820. The drinkingstraw sealing gasket 1847 is preferably fabricated of a pliant material, such as rubber, nylon, or any other material that would be suitable for insertion, retention, and sealing about the outer surface of thedrinking straw 1820. - The
drinking straw 1820 can be any known design, including a straight configuration, a formed configuration, include bending feature(s), and the like. Thedrinking straw 1820 can be referenced by a drinking straw exposedupper area 1822 extending from an exterior of the drinkingstraw socket accessory 1800 and terminating at a drinking strawupper end 1823, and a drinking straw unexposedlower area 1824 extending from an interior of the drinkingstraw socket accessory 1800 and terminating at a drinking strawlower end 1825. Thedrinking straw 1820 would have a tubular body providing a drinkingstraw dispensing aperture 1828 therethrough. It would be preferred that thedrinking straw 1820 is of a length enabling the drinking strawlower end 1825 to be positioned proximate the container closedbottom wall 504 of theresealable container 500. - The socket
mating rotary actuator 1860 is designed having socket accessorycylindrical exterior sidewall 1862 formed in a ring or open annular shape. The exemplary embodiment introduces a socket accessory container body and lidassembly seam cavity 1870 formed extending inward from a lower edge of the socket accessorycylindrical exterior sidewall 1862 and a lower edge of a socket accessorycontainer overlapping sidewall 1871. The socket accessorycylindrical exterior sidewall 1862 includes at least one feature (such ascam followers FIG. 178 ) designed to engage with the cam tracks 552, 554, 556 of theresealable container cap 560 or any other like feature of any respective container lid. A socket mating rotaryactuator groove track 1850 is incorporated into the interior surface of the cylindricalvertical wall 1871 of the socketmating rotary actuator 1860. A plurality of gripping features, such as a socketaccessory grip elements 1874 and respective socket accessory force application surfaces 1875 are formed about the radial, exterior surface of the exteriorvertical wall 1871. It would be appreciated by those skilled in the art that the configuration of the socketmating rotary actuator 1860 can vary significantly, while accomplishing the same function. Therefore, the invention should not be limited by the exemplary configurations as illustrated and described herein. - The socket mating rotary
actuator groove track 1850 and the socket mating rotary actuator helical groovetrack cam follower 1880 are designed to mate with one another enabling a rotational relationship with one another, while maintaining an axial relationship with one another. - During assembly of the drinking
straw socket accessory 1800 onto the container lidresealable container lid 510, the consumer would align a bottom of the socket accessory off-centertear panel plug 1838 with the dispensing aperture of theresealable container lid 510. This will retain the stationary / axiallyoperable component 1810 in a rotationally fixed position, as shown inFIG. 180 . The socketmating rotary actuator 1860 is rotated clockwise, engaging thecam followers operable component 1810 toward the cap receivingsocket bottom wall 534, wherein the socketaccessory sealing ring 1865 is pressed against the cap receivingsocket bottom wall 534 of theresealable container lid 510, creating a seal, as shown inFIG. 181 . Additionally, the socket accessory off-centertear panel plug 1838 is seated into the dispensing aperture of theresealable container lid 510, providing another seal therebetween. Once the socketmating rotary actuator 1860 is tightened, the modifiedresealable container 500 is ready for use. - A second exemplary specialized cap is a baby bottle
nipple socket accessory 1900, detailed inFIG. 182 . The baby bottlenipple socket accessory 1900 includes features that are similar to those of the drinkingstraw socket accessory 1800. Like features of the baby bottlenipple socket accessory 1900 and the drinkingstraw socket accessory 1800 are numbered the same except preceded by the numeral '19'. The baby bottlenipple socket accessory 1900 can be configured having a unitary cap design, as shown, or having the mason jar-like cap assembly design of the drinkingstraw socket accessory 1800. In the example of the baby bottlenipple socket accessory 1900, a babybottle nipple feature 1920 is preferably fabricated of a latex, silicone, or any other suitable material. The babybottle nipple feature 1920 is preferably shaped and includes features resembling and associated with a common bottle nipple. The illustration identifies a baby bottlenipple dispensing aperture 1928 cut through a distal end of a baby bottle nipple pliable projectingcomponent 1922. The babybottle nipple feature 1920 can be overmolded onto a flange of the socket mating baby bottle nipplerotational attachment element 1960, adhesively joined with the flange of the socket mating baby bottle nipplerotational attachment element 1960, or by any other suitable joining process. - A third exemplary specialized cap is a sipping cup socket accessory 2000, detailed in
FIG. 183 . The sipping cup socket accessory 2000 includes features that are similar to those of the baby bottlenipple socket accessory 1900. Like features of the sipping cup socket accessory 2000 and the baby bottlenipple socket accessory 1900 are numbered the same except preceded by the numeral '20'. The sipping cup socket accessory 2000 can be configured having a unitary cap design, as shown, or having the mason jar-like cap assembly design of the drinkingstraw socket accessory 1800. In the example of the sipping cup socket accessory 2000, a sipping cupmouth piece feature 2020 is preferably unitarily integrated into a socketaccessory traversing wall 2034 of the sipping cup socket accessory 2000. The sipping cupmouth piece feature 2020 is preferably shaped and includes features resembling and associated with a common children's sippy cup (sipping cup). The sipping cupmouth piece feature 2020 includes a sippingcup dispensing aperture 2028 formed passing through a top of a sipping cup mouth piecepliable surface 2022. - A fourth exemplary specialized cap is a sports
bottle socket accessory 2100, detailed inFIG. 184 . The sportsbottle socket accessory 2100 includes features that are similar to those of the drinkingstraw socket accessory 1800. Like features of the sportsbottle socket accessory 2100 and the drinkingstraw socket accessory 1800 are numbered the same except preceded by the numeral '21'. The sportsbottle socket accessory 2100 can be configured having a unitary cap design or having the mason jar-like cap assembly design of the drinkingstraw socket accessory 1800, as shown. The sportsbottle socket accessory 2100 includes a sports bottlemouth piece feature 2120. The sports bottlemouth piece feature 2120 can be similar to any known axial sealing and dispensing configuration, such as those commonly used in sports bottles. The sports bottlemouth piece feature 2120 includes a sports bottle mouth piece axially sealingcomponent 2122 axially moveable along a sportsbottle neck feature 2121. A sportsbottle dispensing aperture 2128 is formed through the 2122, enabling passage of a drink therethrough when the sports bottle mouth piece axially sealingcomponent 2122 is pulled into a dispensing position. Alternatively, the sports bottle mouth piece feature 2120 transitions into a sealed configuration when the sports bottle mouth piece axially sealingcomponent 2122 is compressed rearward into the sportsbottle neck feature 2121. - The process for opening and closing the sports bottle
mouth piece feature 2120 is well known by those skilled in the art and is therefore not detailed herein. - A fifth exemplary specialized cap is a rotating resealable fluid dispensing
spout socket accessory 2200, detailed inFIGS. 185 ,186 . The rotating resealable fluid dispensingspout socket accessory 2200 includes features that are similar to those of the sportsbottle socket accessory 2100. Like features of the rotating resealable fluid dispensingspout socket accessory 2200 and the sportsbottle socket accessory 2100 are numbered the same except preceded by the numeral '22'. The rotating resealable fluid dispensingspout socket accessory 2200 can be configured having a unitary cap design or having the mason jar-like cap assembly design of the drinkingstraw socket accessory 1800, as shown. The rotating resealable fluid dispensingspout socket accessory 2200 includes a rotating resealable fluid dispensingspout feature 2220. The rotating resealable fluid dispensingspout feature 2220 can be similar to any known radially sealing and dispensing configuration, such as those commonly used in condiment delivery containers. The rotating resealable fluid dispensingspout feature 2220 includes a rotating resealablefluid dispensing spout 2222 rotationally moveable by a rotating resealable fluid dispensingspout ball hinge 2226. A rotating resealable fluid dispensingspout dispensing aperture 2228 is formed through the rotating resealablefluid dispensing spout 2222, enabling passage of a product therethrough when the rotating resealable fluid dispensingspout feature 2220 is rotated into a dispensing position. Alternatively, the rotating resealable fluid dispensingspout feature 2220 transitions into a sealed configuration when the rotating resealablefluid dispensing spout 2222 is rotated into the rotating resealable fluid dispensingspout accepting cavity 2229. The rotating resealable fluid dispensingspout ball hinge 2226 includes a fluid passageway and a seal that toggle between registration with a respective fluid dispensing passageway within the non-rotary / axiallyoperable component 2210 and a sealing surface within the non-rotary / axiallyoperable component 2210. The process for opening and closing the rotating resealable fluid dispensingspout feature 2220 is well known by those skilled in the art and is therefore not detailed herein. - Although specific embodiments of the present invention have been described, it will be understood by those of skill in the art that there are other embodiments that are equivalent to the described embodiments. Accordingly, it is to be understood that the invention is not to be limited by the specific illustrated embodiments, but only by the scope of the appended claims.
- For example, the cam tracks 552, 554, 556 (and other variants) and the
respective cam followers respective cam followers - In another example, the cam tracks 552, 554, 556 (and other variants) and the
respective cam followers exterior sidewall 562 and thecam followers cylindrical sidewall 532. - In yet another example, one sealing configuration can be adapted to another container lid assembly configuration, such as the frustum shaped sealing
configuration - In yet another example, the sealing
element container lid cap Reference Element Descriptions Ref. No. Description 100 resealable container 102 container cylindrical sidewall 104 container closed bottom wall 106 container seaming flange 108 container seaming wall 109 container body and lid assembly seam 110 resealable container lid 112 never used 114 resealable container lid upper surface 116 never used 118 resealable container lid upper surface reinforcement formation 119 resealable container lid planar base bottom 130 cap receiving socket 132 cap receiving socket cylindrical sidewall 134 cap receiving socket bottom wall 136 cap receiving socket bottom panel circular score line 138 cap receiving socket bottom panel tear panel 139 tear panel hinge 140 cap receiving socket bottom panel flat annular surface 142 cap receiving socket bottom panel centered "X" shaped score line 150 socket sidewall cam engaging projections 160 resealable container cap 162 resealable container cap cylindrical sidewall 164 resealable container cap bottom surface 166 cam shaped cap bottom surface 167 flat annular cap bottom sealing surface 168 offset projecting incisor 169 centered projecting incisor 170 radially extending cap skirt 172 radially extending cap skirt frangible score lines 174 resealable container cap grip element 180 cam groove surface 181 first cam groove surface 182 second cam groove surface 183 third cam groove surface 184 sloped cam groove surface segment 186 embossed cam surface lower detent 188 embossed cam surface upper detent 200 container 202 container cylindrical sidewall 204 container closed bottom wall 210 resealable container lid 214 resealable container lid upper surface 218 resealable container lid upper surface reinforcement formation 219 resealable container lid planar base bottom 230 cap receiving socket 232 cap receiving socket cylindrical sidewall 234 cap receiving socket bottom wall 236 cap receiving socket bottom panel circular score line 238 cap receiving socket bottom panel substantially closed loop tear panel 239 tear panel hinge 240 cap receiving socket bottom panel flat annular surface 242 cap receiving socket bottom panel centered score line 252 first socket sidewall cam engaging projection 254 second socket sidewall cam engaging projection 256 third socket sidewall cam engaging projection 260 resealable container cap 262 resealable container cap cylindrical sidewall 264 resealable container cap bottom surface 266 cam shaped cap bottom surface 267 flat annular cap bottom sealing surface 268 offset projecting incisor 269 centered incising projection 270 radially extending cap skirt 272 radially extending cap skirt frangible score lines 274 resealable container cap grip element 281 first embossed cam surface 282 second embossed cam surface 283 third embossed cam surface 290 first socket bottom panel ramp 291 second socket bottom panel ramp 292 third socket bottom panel ramp 294 first cap bottom surface projecting feature (ramp) 295 second cap bottom surface projecting feature (ramp) 296 third cap bottom surface projecting feature (ramp) 310 resealable container lid 314 resealable container lid upper surface 318 resealable container lid upper surface reinforcement formation 330 cap receiving socket 332 cap receiving socket cylindrical sidewall 334 cap receiving socket bottom wall 338 cap receiving socket bottom panel substantially closed loop tear panel 339 tear panel hinge 340 cap receiving socket bottom panel flat annular surface 344 cap receiving socket bottom panel "S" shaped score line 346 score line fracture thinned initiation region 352 first socket sidewall cam engaging projection 354 second socket sidewall cam engaging projection 356 third socket sidewall cam engaging projection 365 cap sealing ring 390 first socket bottom panel embossed ramp 391 second socket bottom panel embossed ramp 392 first socket bottom panel debossed ramp 393 second socket bottom panel debossed ramp 400 container 410 resealable container lid 414 resealable container lid upper surface 418 resealable container lid upper surface reinforcement formation 430 cap receiving socket 432 cap receiving socket cylindrical sidewall 434 cap receiving socket bottom wall 436 cap receiving socket bottom panel circular score line 438 cap receiving socket bottom panel tear panel 440 cap receiving socket bottom panel flat annular surface 442 cap receiving socket bottom panel centered score line 446 score line fracture thinned initiation region 452 first socket sidewall cam engaging projection 454 second socket sidewall cam engaging projection 460 resealable container cap 469 centered incising projection 474 resealable container cap grip element 476 resealable container cap grip element first cross member 478 resealable container cap grip element second cross member 479 grip enhancing implement 490 first socket bottom panel ramp 491 second socket bottom panel ramp 492 third socket bottom panel ramp 500 resealable container 502 container cylindrical sidewall 504 container closed bottom wall 106 container seaming panel 108 container seaming wall 509 container body and lid assembly seam 510 resealable container lid 517 incisor pathway channel 518 resealable container lid upper surface reinforcement formation 520 seaming panel 522 seaming chuck wall 524 seaming chuck shoulder 526 peripheral countersink 528 off-center tamper indicator feature 527 tamper indicator operation element and lid surface gap 529 off-center tamper indicator operation element 532 cap receiving socket cylindrical sidewall 534 cap receiving socket bottom wall 536 cap receiving socket bottom panel circular score line 538 cap receiving socket bottom panel tear panel 539 tear panel hinge 541 socket bottom wall to surface reinforcement formation transition 551 first inter-cam relief section 552 first socket cam track 552A cam track assembly / locking detent segment A 552B cam track initial / resealed segment B 552C cam track height transition segment C 552D cam track operating segment D 552E cam track cam follower leader section E 553 second inter-cam relief section 554 second socket cam track 555 third inter-cam relief section 556 third socket cam track 560 resealable container cap 562 resealable container cap cylindrical exterior sidewall 563 resealable container cap cylindrical interior sidewall 564 resealable container cap planar traversing wall 565 cap sealing ring 566 incisor deboss panel (incisor platform) 568 offset projecting incisor 570 cylindrical sidewall inverted countersink 574 resealable container cap grip element 575 cap grip element force application surface 581 first formed cam follower 582 second formed cam follower 583 third formed cam follower 590 tear panel surface incisor pathway to tear panel fold boss transition 591 tear panel surface incisor pathway 592 incisor channel to tear panel surface transition 593 finishing score fracture propagation and tear panel fold urging boss 597 lead in supplemental score fracture propagation and tear panel support boss 598 tear panel reinforcing boss 600 seaming chuck tool 601 seaming chuck tool conical driving wall 602 seaming chuck tool planar driving surface 603 seaming chuck tool cap clearance cavity 604 first operation roller 605 first operation roller rotational axis 606 first operation roller driving channel 607 second / final operation roller 608 second / final operation roller spin axis 609 second / final operation roller driving channel 610 outer peripheral countersink wall pre-retort geometry 611 outer peripheral countersink wall pre-retort geometry angle delineator 612 inner peripheral countersink wall pre-retort geometry 613 inner peripheral countersink wall pre-retort geometry angle delineator 614 cap receiving socket bottom wall pre-retort geometry 615 cap receiving socket bottom wall pre-retort geometry angle delineator 620 outer peripheral countersink wall post-retort geometry 621 outer peripheral countersink wall post-retort geometry angle delineator 622 inner peripheral countersink wall post-retort geometry 623 inner peripheral countersink wall post-retort geometry angle delineator 624 cap receiving socket bottom wall post-retort geometry 625 cap receiving socket bottom wall post-retort geometry angle delineator 628 concentric tamper indicator feature 629 concentric tamper indicator operation element 660 resealable container cap 662 resealable container cap cylindrical exterior sidewall 663 resealable container cap cylindrical interior sidewall 664 resealable container cap planar traversing surface 665 cap sealing ring 666 incisor deboss panel 668 offset projecting incisor 670 cylindrical sidewall inverted countersink 674 resealable container cap grip element 675 cap grip element force application surface 681 first formed cam follower 682 second formed cam follower 683 third formed cam follower 710 resealable container lid 717 incisor pathway channel 718 resealable container lid upper surface reinforcement formation 720 seaming panel 722 seaming chuck wall 724 seaming chuck shoulder 726 peripheral countersink 732 cap receiving socket cylindrical sidewall 734 cap receiving socket bottom wall 736 cap receiving socket bottom panel circular score line 738 cap receiving socket bottom panel tear panel 739 tear panel hinge 741 socket bottom wall to surface reinforcement formation transition 746 score line fracture thinned initiation region 747 score line thinned region seal reinforcement 751 first inter-cam relief section 752 first socket cam track 753 second inter-cam relief section 754 second socket cam track 755 third inter-cam relief section 756 third socket cam track 790 tear panel surface incisor pathway to tear panel fold boss transition 791 tear panel surface incisor pathway 792 incisor channel to tear panel surface transition 793 finishing score fracture propagation and tear panel fold urging boss 797 lead in supplemental score fracture propagation and tear panel support boss 798 tear panel reinforcing boss 810 resealable container lid 817 incisor pathway channel 818 resealable container lid upper surface reinforcement formation 820 seaming panel 822 seaming chuck wall 824 seaming chuck shoulder 826 peripheral countersink 832 cap receiving socket cylindrical sidewall 833 first score line formation segments 834 cap receiving socket bottom wall 835 second score line formation segment 836 cap receiving socket bottom panel circular score line 838 cap receiving socket bottom panel tear panel 839 tear panel hinge 841 socket bottom wall to surface reinforcement formation transition 846 score line fracture thinned initiation region 847 score line segment overlapping regions 851 first inter-cam relief section 852 first socket cam track 853 second inter-cam relief section 854 second socket cam track 855 third inter-cam relief section 856 third socket cam track 890 tear panel surface incisor pathway to tear panel fold boss transition 891 tear panel surface incisor pathway 892 incisor channel to tear panel surface transition 893 finishing score fracture propagation and tear panel fold urging boss 894 first incisor pathway index formation 895 lid bottom score line thinned formation region 896 second incisor pathway index formation 897 lead in supplemental score fracture propagation and tear panel support boss 898 tear panel reinforcing boss 910A lid alignment feature anvil A 910B lid alignment feature with lid bottom score line thinned formation anvil B 917 incisor pathway channel anvil 918 resealable container lid upper surface reinforcement formation anvil 932 cap receiving socket cylindrical anvil body 933 first score line formation segment punches 934 cap receiving socket bottom wall anvil 935 second score line formation segment punch 936 cap receiving socket bottom panel circular score line punch 938 first score line formation segment punch ends ready for overlap 939 tear panel hinge formation punch area 941 socket bottom wall to surface reinforcement formation transition anvil 946 score line fracture thinned initiation region punch 947 score line segment overlapping region punches 960A lid alignment feature punch tool A 960B first score line segment punch tool B 960C second score line segment punch tool C 960D complete score line punch tool D 962 lid alignment feature punch tool body 964 lid alignment feature punch tool bottom surface 993 first incisor pathway index formation anvil 994 first incisor pathway index formation punch 995 lid bottom score line thinned formation region anvil 996 second incisor pathway index formation punch 997 second incisor pathway index formation anvil 1010 resealable container lid 1017 incisor pathway channel 1018 resealable container lid upper surface reinforcement formation 1020 seaming panel 1022 seaming chuck wall 1024 seaming chuck shoulder 1026 peripheral countersink 1032 cap receiving socket cylindrical sidewall 1033 first score line formation segments 1034 cap receiving socket bottom wall 1035 second score line formation segment 1036 cap receiving socket bottom panel circular score line 1038 cap receiving socket bottom panel tear panel 1039 tear panel hinge 1041 socket bottom wall to surface reinforcement formation transition 1046 score line fracture thinned initiation region 1047 score line segment overlapping region 1051 first inter-cam relief section 1052 first socket cam track 1053 second inter-cam relief section 1054 second socket cam track 1055 third inter-cam relief section 1056 third socket cam track 1090 tear panel surface incisor pathway to tear panel fold boss transition 1091 tear panel surface incisor pathway 1092 incisor channel to tear panel surface transition 1093 finishing score fracture propagation and tear panel fold urging boss 1094 first incisor pathway refined chamfer face 1095 lid bottom score line hinge crease 1096 second incisor pathway refined chamfer face 1097 lead in supplemental score fracture propagation and tear panel support boss 1098 tear panel reinforcing boss 1100 resealable container 1102 container cylindrical sidewall 1104 container closed bottom wall 1109 container body and lid assembly seam 1110 resealable container lid 1117 incisor pathway channel 1118 resealable container lid upper surface reinforcement formation 1120 seaming panel 1122 seaming chuck wall 1124 seaming chuck shoulder 1126 peripheral countersink 1128 off-center tamper indicator feature 1129 off-center tamper indicator operation element 1132 cap receiving socket cylindrical sidewall 1134 cap receiving socket bottom wall 1136 cap receiving socket bottom panel circular score line 1138 cap receiving socket bottom panel tear panel 1139 tear panel hinge 1141 socket bottom wall to surface reinforcement formation transition 1151 first inter-cam relief section 1152 first socket cap retaining cam track 1152A cam track assembly / locking detent A 1152B cam track initial / resealed section B 1152C cam track height transition section C 1152D cam track operating section D 1152E cam track cam follower locking section E 1153 second inter-cam relief section 1154 second socket cap retaining cam track 1155 third inter-cam relief section 1156 third socket cap retaining cam track 1160 resealable container cap 1161 resealable container cap dispensing aperture 1162 resealable container cap cylindrical exterior sidewall 1163 resealable container cap cylindrical interior sidewall 1164 resealable container cap planar traversing surface 1165 tear panel conforming sealing gasket 1166 incisor deboss panel (incisor platform) 1168 offset projecting incisor 1170 cylindrical sidewall inverted countersink 1174 resealable container cap grip element 1175 cap grip element force application surface 1181 first formed cam follower 1182 second formed cam follower 1183 third formed cam follower 1190 tear panel surface incisor pathway to tear panel fold boss transition 1191 tear panel surface incisor pathway 1192 incisor channel to tear panel surface transition 1193 finishing score fracture propagation and tear panel fold urging boss 1197 lead in supplemental score fracture propagation and tear panel support boss 1198 tear panel reinforcing boss 1200 resealable container 1202 container cylindrical sidewall 1204 container closed bottom wall 1209 container body and lid assembly seam 1210 resealable container lid 1217 incisor pathway channel 1218 resealable container lid upper surface reinforcement formation 1220 seaming panel 1222 seaming chuck wall 1224 seaming chuck shoulder 1226 peripheral countersink 1232 cap receiving socket cylindrical sidewall 1234 cap receiving socket bottom wall 1236 cap receiving socket bottom panel clockwise opening circular score line 1238 clockwise opening tear panel 1239 clockwise opening tear panel hinge 1241 socket bottom wall to surface reinforcement formation transition 1251 first inter-cam relief section 1252 first socket cam track 1253 second inter-cam relief section 1254 second socket cam track 1255 third inter-cam relief section 1256 third socket cam track 1260 container lid socket engaging opening tool 1261 opening tool dispensing aperture 1262 opening tool exterior sidewall 1263 opening tool interior sidewall 1264 opening tool planar traversing surface 1265 opening tool sealing ring 1268 opening tool offset projecting incisor 1270 opening tool container body and lid assembly seam cavity 1271 opening tool container overlapping sidewall 1274 opening tool grip element 1275 opening tool grip element force application surface 1281 opening tool formed cam follower 1290 tear panel surface incisor pathway to tear panel fold boss transition 1291 tear panel surface incisor pathway 1292 incisor channel to tear panel surface transition 1293 finishing score fracture propagation and tear panel fold urging boss 1297 lead in supplemental score fracture propagation and tear panel support boss 1298 tear panel reinforcing boss 1310 resealable container lid 1317 incisor pathway channel 1318 resealable container lid upper surface reinforcement formation 1320 seaming panel 1322 seaming chuck wall 1324 seaming chuck shoulder 1326 peripheral countersink 1328 concentric tamper indicator feature 1329 concentric tamper indicator operation element 1332 cap receiving socket cylindrical sidewall 1334 cap receiving socket bottom wall 1336 cap receiving socket bottom panel circular score line 1338 cap receiving socket bottom panel tear panel 1339 tear panel hinge 1340 frustum shaped cap seal engaging annular surface 1341 socket bottom wall to surface reinforcement formation transition 1351 first inter-cam relief section 1352 first socket cam track 1353 second inter-cam relief section 1354 second socket cam track 1355 third inter-cam relief section 1356 third socket cam track 1360 resealable container cap 1362 resealable container cap cylindrical exterior sidewall 1363 resealable container cap cylindrical interior sidewall 1364 resealable container cap planar traversing surface 1365 frustum shaped cap sealing ring 1366 incisor deboss panel (incisor platform) 1367 frustum shaped cap sealing ring surface 1368 offset projecting incisor 1370 cylindrical sidewall inverted countersink 1374 resealable container cap grip element 1375 cap grip element force application surface 1381 first formed cam follower 1382 second formed cam follower 1383 third formed cam follower 1390 tear panel surface incisor pathway to tear panel fold boss transition 1391 tear panel surface incisor pathway 1392 incisor channel to tear panel surface transition 1393 finishing score fracture propagation and tear panel fold urging boss 1397 lead in supplemental score fracture propagation and tear panel support boss 1398 tear panel reinforcing boss 1410 resealable container lid 1420 seaming panel 1422 seaming chuck wall 1424 seaming chuck shoulder 1426 peripheral bottom edge fold 1428 pneumatically operated concentric tamper indicator feature 1432 cap receiving socket cylindrical sidewall 1440 frustum shaped cap seal engaging annular surface 1451 first inter-cam relief section 1452 first socket cam track 1453 second inter-cam relief section 1454 second socket cam track 1455 third inter-cam relief section 1456 third socket cam track 1460 resealable container cap 1461 container lid dispensing aperture 1462 resealable container cap cylindrical exterior sidewall 1463 resealable container cap cylindrical interior sidewall 1464 resealable container cap planar traversing surface 1465 frustum shaped cap sealing ring 1467 frustum shaped cap sealing ring surface 1470 cylindrical sidewall inverted countersink 1474 resealable container cap grip element 1475 cap grip element force application surface 1481 first formed cam follower 1560 resealable container cap 1562 resealable container cap cylindrical lower exterior sidewall 1563 resealable container cap cylindrical upper exterior sidewall 1564 resealable container cap planar traversing surface 1565 frustum shaped cap sealing ring 1566 cap grip bottom wall incisor deboss panel (incisor platform) 1567 frustum shaped cap sealing ring surface 1568 cap grip bottom wall projecting incisor 1574 resealable container cap grip element cavity 1575 cap grip element cavity force application surface 1581 first formed cam follower 1582 second formed cam follower 1583 third formed cam follower 1628 off-center tamper indicator feature 1629 off-center tamper indicator operation element 1660 resealable container cap 1662 resealable container cap cylindrical exterior sidewall 1663 resealable container cap cylindrical interior sidewall 1664 resealable container cap planar traversing surface 1665 cap sealing ring 1666 incisor deboss panel (incisor platform) 1668 offset projecting incisor 1670 cylindrical sidewall inverted countersink 1674 resealable container cap grip element 1675 cap grip element force application surface 1676 cap grip element grip enhancing feature 1681 first formed cam follower 1682 second formed cam follower 1683 third formed cam follower 1760 resealable container cap opening assistance tool 1761 opening assistance tool upper cylindrical sidewall 1762 opening assistance tool top wall 1763 opening assistance tool lower cylindrical sidewall 1764 opening assistance tool bottom wall 1774 opening assistance tool cap grip receiving cavity 1775 opening assistance tool force application surface 1775 opening assistance tool grip enhancing feature 1784 opening assistance tool grip element 1785 opening assistance tool force application surface 1800 drinking straw socket accessory 1810 stationary, axially operable component 1820 drinking straw 1822 drinking straw exposed upper area 1823 drinking straw upper end 1824 drinking straw unexposed lower area 1825 drinking straw lower end 1828 drinking straw dispensing aperture 1832 socket accessory cylindrical interior sidewall 1834 socket accessory traversing wall 1838 socket accessory off-center tear panel plug 1847 drinking straw sealing gasket 1850 socket mating rotary actuator groove track 1860 socket mating rotary actuator 1862 socket accessory cylindrical exterior sidewall 1865 socket accessory sealing ring 1870 socket accessory container body and lid assembly seam cavity 1871 socket accessory container overlapping sidewall 1874 socket accessory grip element 1875 socket accessory force application surface 1880 socket mating rotary actuator helical groove track cam follower 1881 first cam follower 1882 second cam follower 1883 third cam follower 1900 baby bottle nipple socket accessory 1920 baby bottle nipple feature 1922 baby bottle nipple pliable projecting component 1928 baby bottle nipple dispensing aperture 1960 socket mating baby bottle nipple rotational attachment element 1974 socket accessory grip element 1975 socket accessory force application surface 2000 sipping cup socket accessory 2010 non-rotary / axially operable component 2020 sipping cup mouth piece feature 2022 sipping cup mouth piece pliable surface 2028 sipping cup dispensing aperture 2034 socket accessory traversing wall 2060 socket mating rotary actuator 2074 socket accessory grip element 2075 socket accessory force application surface 2100 sports bottle socket accessory 2110 non-rotary / axially operable component 2120 sports bottle mouth piece feature 2121 sports bottle neck feature 2122 sports bottle mouth piece axially sealing component 2128 sports bottle dispensing aperture 2134 socket accessory traversing wall 2160 socket mating rotary actuator 2174 socket accessory grip element 2175 socket accessory force application surface 2200 rotating resealable fluid dispensing spout socket accessory 2210 non-rotary / axially operable component 2220 rotating resealable fluid dispensing spout feature 2222 rotating resealable fluid dispensing spout 2226 rotating resealable fluid dispensing spout ball hinge 2228 rotating resealable fluid dispensing spout dispensing aperture 2229 rotating resealable fluid dispensing spout accepting cavity 2234 socket accessory traversing wall 2260 socket mating rotary actuator 2274 socket accessory grip element 2275 socket accessory force application surface
Claims (15)
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) comprising:a container lid (510, 710, 810, 1010, 1110, 1210, 1310, 1410) comprising:a vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332, 1432) having a cylindrical shape extending between an upper peripheral edge (524, 724, 824, 1024, 1124, 1224, 1324, 1424) and a lower peripheral edge (526, 726, 826, 1026, 1126, 1226, 1326, 1426),a seaming panel (520, 720, 820, 1020, 1120, 1220, 1310, 1420) formed about the vertical sidewall upper peripheral edge (524, 724, 824, 1024, 1124, 1224, 1324, 1424), the seaming panel (520, 720, 820, 1020, 1120, 1220, 1420) being adapted to assemble the container lid (510, 710, 810, 1010, 1110, 1210, 1310, 1410) to a container sidewall (102, 106, 108) of a container for comestibles,a container lid seal engaging surface (534, 734, 834, 1034, 1134, 1234, 1340, 1440);a container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) comprising:a resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1464; 1564; 1664),a resealable container cap cylindrical exterior sidewall (562, 662, 1162, 1262, 1362, 1462, 1562, 1662) arranged generally perpendicular to the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1464; 1564; 1664), the resealable container cap cylindrical exterior sidewall (562, 662, 1162, 1262, 1362, 1462, 1562, 1662) having a cylindrical shape, sized to rotationally engage with an interior surface of the container lid vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332, 1432),a grip feature (574, 674, 1174, 1274, 1374, 1474, 1574, 1674) adapted to receive a force to cause a rotational motion of the container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660), anda sealing element (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) arranged to engage with the container lid seal engaging surface (534, 734, 834, 1034, 1134, 1234, 1340, 1440);wherein the container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) is inserted into an interior volume defined by the container lid vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332, 1432),characterized in that:
the container lid (510, 710, 810, 1010, 1110, 1210, 1310, 1410) further comprises:
a container lid rotational and axial guide feature (552, 554, 556; 752, 754, 756; 852, 854, 856; 1052, 1054, 1056; 1152, 1154, 1156; 1252, 1254, 1256; 1352, 1354, 1356; 1452, 1454, 1456) integral with the vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332, 1432), and in thatthe container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) further comprises:a sealing cap rotational and axial guide feature (581, 582, 583; 681, 682, 683; 1181, 1182, 1183; 1281, 1282, 1283; 1381, 1382, 1383; 1481, 1482, 1483; 1581, 1582, 1583; 1681, 1682, 1683) integral with the cap cylindrical exterior sidewall (562, 662, 1162, 1262, 1362, 1462, 1562, 1662),wherein the sealing element (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) engages with the container lid seal engaging surface (534, 734, 834, 1034, 1134, 1234, 1340, 1440) when the sealing cap rotational and axial guide feature (581, 582, 583; 681, 682, 683; 1181, 1182, 1183; 1281, 1282, 1283; 1381, 1382, 1383; 1481, 1482, 1483; 1581, 1582, 1583; 1681, 1682, 1683) is rotationally engaged with the container lid rotational and axial guide feature (552, 554, 556; 752, 754, 756; 852, 854, 856; 1052, 1054, 1056; 1152, 1154, 1156; 1252, 1254, 1256; 1352, 1354, 1356; 1452, 1454, 1456). - A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in claims 1, further comprising:a countersink (526, 726, 826, 1026, 1126, 1226, 1326) formed about the lower peripheral edge (526, 726, 826, 1026, 1126, 1226, 1326) of the vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332), the countersink (526, 726, 826, 1026, 1126, 1226, 1326) having a generally "U" shape;a cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334) extending radially inward from an inner upper edge of the countersink (526, 726, 826, 1026, 1126, 1226, 1326);a score line (536, 736, 836, 1036, 1136, 1236, 1336) formed within the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334), the score line (536, 736, 836, 1036, 1136, 1236, 1336) arranged in a shape defining a tear panel (538, 738, 838, 1038, 1138, 1238, 1338) and a tear panel hinge (539, 739, 839, 1039, 1139, 1239, 1339); andan incisor (568; 668; 1168; 1268; 1368; 1568; 1668) extending downward from a bottom surface of the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1464; 1564; 1664),wherein the container lid vertical sidewall (532, 732, 832, 1032, 1132, 1232, 1332, 1432), the countersink (526, 726, 826, 1026, 1126, 1226, 1326), and the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334) collectively define a cap receiving socket,wherein the container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) is inserted into the cap receiving socket,wherein the sealing cap rotational and axial guide feature (581, 582, 583; 681, 682, 683; 1181, 1182, 1183; 1281, 1282, 1283; 1381, 1382, 1383; 1481, 1482, 1483; 1581, 1582, 1583; 1681, 1682, 1683) and the container lid rotational and axial guide feature (552, 554, 556; 752, 754, 756; 852, 854, 856; 1052, 1054, 1056; 1152, 1154, 1156; 1252, 1254, 1256; 1352, 1354, 1356; 1452, 1454, 1456) are adapted to at least one of:a) axially translate the resealable container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) within the cap receiving socket when the resealable container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) is rotated respective to the container lid (510, 710, 810, 1010, 1110, 1210, 1310, 1410), andb) generate an axial force between at least one feature integral with the bottom surface (564, 664, 1164, 1264, 1364, 1464, 1564, 1664) of the resealable container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) and a corresponding feature integral with the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334).wherein the incisor (568; 668; 1168; 1268; 1368; 1568; 1668) is adapted to initiate a fracture of the score line (536, 736, 836, 1036, 1136, 1236, 1336) during rotation of the sealing cap (560, 660, 1160, 1260, 1360, 1560, 1660) within the cap receiving socket.
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in claim 2, the incisor (568; 668; 1168; 1268; 1368; 1568; 1668) further comprising a leading edge, a trailing edge, and a bottom edge,
wherein the leading edge of the incisor (568; 668; 1168; 1268; 1368; 1568; 1668) is adapted to initiate a fracture of the score line (536, 736, 836, 1036, 1136, 1236, 1336) during rotation of the sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) within the cap receiving socket. - A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 1-3, wherein the sealing cap rotational and axial guide feature (581, 582, 583; 681, 682, 683; 1181, 1182, 1183; 1281, 1282, 1283; 1381, 1382, 1383; 1481, 1482, 1483; 1581, 1582, 1583; 1681, 1682, 1683) is one of:a) an at least one cam follower, andb) an at least one cam track; andwherein the container lid rotational and axial guide feature (552, 554, 556; 752, 754, 756; 852, 854, 856; 1052, 1054, 1056; 1152, 1154, 1156; 1252, 1254, 1256; 1352, 1354, 1356; 1452, 1454, 1456) is the other of:a) the at least one cam follower, andb) the at least one cam track.
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in claim 4, wherein the at least one cam track (552) is shaped comprising a locking detent segment (552A), wherein the sealing element (565) has a sealing element thickness,
wherein a combination of the shape of the locking detent segment (552A) and the thickness of the sealing element (565) maintain a compression of the sealing element (565) when a respective cam follower (581) of the at least one cam follower (581, 582, 583) is positioned in relation with the locking detent segment (552A). - A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1310, 1560; 510, 1660) as recited in one of claims 2-4, the container lid (510, 710, 810, 1010, 1110, 1210, 1310) further comprising an incisor pathway (517, 717, 817, 1017, 1117, 1217, 1317) formed within the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334), the incisor pathway (517, 717, 817, 1017, 1117, 1217, 1317) having a debossed shape with one end (592) located at least one of:a) proximate a fracture initiation region (746, 846, 1046) of the score line (536, 736, 836, 1036, 1136, 1236, 1336), andb) overlapping the fracture initiation region of the score line (536, 736, 836, 1036, 1136, 1236, 1336).
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1310, 1560; 510, 1660) as recited in one of claims 2-5, the container lid sealing cap (560, 660, 1160, 1260, 1360, 1560, 1660) further comprising an incisor platform (566; 666; 1166; 1266; 1366; 1566; 1666) formed extending downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1564; 1664), the incisor (568; 668; 1168; 1268; 1368; 1568; 1668) extending downward from the incisor platform (566; 666; 1166; 1266; 1366; 1566; 1666);
the container lid (510, 710, 810, 1010, 1110, 1210, 1310) further comprising at least one raised feature adapted to engage with the incisor platform (566; 666; 1166; 1266; 1366; 1566; 1666) to propagate fracturing of the score line (536, 736, 836, 1036, 1136, 1236, 1336) during rotation of the container lid sealing cap (560, 660, 1160, 1260, 1360, 1560, 1660) within the cap receiving socket. - A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1310, 1560; 510, 1660) as recited in claim 6, wherein at least of portion of the at least one raised feature (593, 597, 598; 793, 797, 798; 893, 897, 898; 1093, 1097, 1098; 1193, 1197, 1198; 1293, 1297, 1298; 1393, 1397, 1398) is formed within the tear panel (538, 738, 838, 1038, 1138, 1238, 1338), providing rigidity to the tear panel (538, 738, 838, 1038, 1138, 1238, 1338).
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 2-7, wherein at least one of:the incisor (568; 668; 1168; 1268; 1368; 1568; 1668) is adapted to fold the tear panel (538, 738, 838, 1038, 1138, 1238, 1338) away from the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334), andan incisor platform (566; 666; 1166; 1266; 1366; 1566; 1666) is adapted to fold the tear panel (538, 738, 838, 1038, 1138, 1238, 1338) away from the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334), wherein the incisor platform (566; 666; 1166; 1266; 1366; 1566; 1666) extends downward from the bottom surface of the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1564; 1664).
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 1-8, the container lid sealing cap (560, 660, 1160, 1260, 1360, 1460, 1560, 1660) further comprising a tamper indicator (528, 628, 1128, 1328, 1428, 1628), wherein the tamper indicator (528, 628, 1128, 1328, 1428, 1628) is adapted to inform a consumer when a resealable container assembly (500, 1000, 1100, 1200) including the container lid (510, 710, 810, 1010, 1110, 1210, 1310, 1410) has been breached.
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in claim 9, the tamper indicator (528, 628, 1128, 1328, 1428, 1628) further comprising a feature adapted to:a) be rigidly supported by the cap receiving socket bottom wall (534, 734, 834, 1034, 1134, 1234, 1334) when the container is sealed, preventing reporting, wherein the lack of reporting is indicative of a sealed container assembly (500, 1000, 1100, 1200), andb) become flexible when the seal of the container is breached, thus providing reporting, wherein reporting is indicative of a breached container assembly (500, 1000, 1100, 1200).
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 1-10, wherein the grip feature (574, 674, 1174, 1274, 1374, 1474, 1574, 1674) is formed as a grip cavity (1574).
- A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 1-11, wherein the cap sealing element (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) is one of:a) a sealing gasket (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) carried by a bottom surface of the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1464; 1564; 1664),b) a sealing gasket (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) carried by an annular surface of the bottom surface of the resealable container cap generally horizontally oriented traversing wall (564; 664; 1164; 1264; 1364; 1464; 1564; 1664),c) a frustum shaped surface formed within the resealable container cap cylindrical sidewall (562, 662, 1162, 1262, 1362, 1462, 1562, 1662), ord) a sealing gasket (565, 665, 1165, 1265, 1365, 1465, 1565, 1665) carried by a frustum shaped surface formed within the resealable container cap cylindrical sidewall (562, 662, 1162, 1262, 1362, 1462, 1562, 1662).
- A resealable container lid assembly (1310, 1360; 1410, 1460; 1310, 1560) as recited in any of claims 1-11, wherein the container lid seal engaging surface (1340, 1440) is a frustum shaped surface formed within the container lid vertical sidewall (1332, 1432),
wherein the cap sealing element (1365, 1465, 1565) is arranged having a frustum shaped surface adapted to engage with the frustum shaped surface of the container lid seal engaging surface (1340, 1440). - A resealable container lid assembly (510, 560; 510, 660; 710, 560; 810, 560; 1010, 560; 1110, 1160; 1210, 1260; 1310, 1360; 1410, 1460; 1310, 1560; 510, 1660) as recited in one of claims 1-11, wherein the container lid sealing cap (1160) further comprises a dispensing aperture (1161) and a sealing gasket (1165), wherein the dispensing aperture (1161) and the sealing gasket (1165) are located approximately along a same radius from a central rotation point of the container lid sealing cap (1160).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US15/056,216 US9637269B1 (en) | 2012-08-10 | 2016-02-29 | Resealable container lid and accessories including methods of manufacturing and use |
PCT/US2017/019274 WO2017151419A1 (en) | 2016-02-29 | 2017-02-24 | Resealable container lid and accessories including methods of manufacture and use |
Publications (3)
Publication Number | Publication Date |
---|---|
EP3423367A1 EP3423367A1 (en) | 2019-01-09 |
EP3423367A4 EP3423367A4 (en) | 2020-03-04 |
EP3423367B1 true EP3423367B1 (en) | 2022-11-16 |
Family
ID=59744322
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP17760501.1A Active EP3423367B1 (en) | 2016-02-29 | 2017-02-24 | Resealable container lid assembly |
Country Status (11)
Country | Link |
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EP (1) | EP3423367B1 (en) |
JP (1) | JP6953022B2 (en) |
KR (1) | KR20180120725A (en) |
CN (1) | CN109219563B (en) |
AU (1) | AU2017228251B2 (en) |
BR (1) | BR112018067346B1 (en) |
CA (1) | CA3015350C (en) |
ES (1) | ES2935495T3 (en) |
HK (1) | HK1258247A1 (en) |
PL (1) | PL3423367T3 (en) |
WO (1) | WO2017151419A1 (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11952164B1 (en) | 2012-08-10 | 2024-04-09 | Powercan Holding, Llc | Resealable container lid and accessories including methods of manufacture and use |
US11560255B2 (en) * | 2018-04-03 | 2023-01-24 | Toyo Seikan Co., Ltd. | Can lid |
WO2020245821A1 (en) * | 2019-06-03 | 2020-12-10 | Top End Ltd. | A protective seal for containers |
KR102416533B1 (en) * | 2019-11-29 | 2022-07-04 | 주식회사 지니컵 | One-touch switchgear |
CN111776529B (en) * | 2020-05-20 | 2023-12-15 | 广东伟烨船舶设备有限公司 | Submarine garbage disposal device |
WO2023049460A1 (en) * | 2021-09-26 | 2023-03-30 | Powercan Holding, Llc | Threaded container components having frustum shaped surfaces enabling nesting |
GB2615098A (en) * | 2022-01-27 | 2023-08-02 | Crown Packaging Technology Inc | Can ends, metal cans and apparatus for dispensing therefrom |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CA2023420A1 (en) * | 1989-08-23 | 1991-02-24 | W. Coy Willis | Resealable container closure |
US5692633A (en) * | 1996-01-02 | 1997-12-02 | Hullko Corporation | Beverage container lid |
GB0522963D0 (en) * | 2005-11-11 | 2005-12-21 | Parker Julian | Container end and opener |
DE102006051409A1 (en) * | 2006-10-27 | 2008-04-30 | C-A-P Technologies Gmbh | Package e.g. drinks can, for free-flow product, has sealing cap extending over whole cover and rotationally positioned opposite cover |
SE531748C2 (en) * | 2007-10-17 | 2009-07-28 | Piren Venture Ab | Resealable packaging |
AT508082B1 (en) * | 2009-04-07 | 2011-01-15 | Xolution Gmbh | RE-SEALABLE CLOSURE OF A LIQUID CONTAINER |
EP2269914A1 (en) * | 2009-07-01 | 2011-01-05 | Bülent Baylav | A Protective Cap For Cans |
EP2409925B1 (en) * | 2010-07-19 | 2012-12-19 | Red Bull GmbH | Resealable container lid, container, in particular drink cans, containing the resealable container lid, method for producing such containers and application of the container lid |
US9694935B2 (en) * | 2013-03-15 | 2017-07-04 | Ball Corporation | End closure with a ring pull actuated secondary vent |
-
2017
- 2017-02-24 CN CN201780014149.7A patent/CN109219563B/en active Active
- 2017-02-24 AU AU2017228251A patent/AU2017228251B2/en active Active
- 2017-02-24 BR BR112018067346-3A patent/BR112018067346B1/en active IP Right Grant
- 2017-02-24 EP EP17760501.1A patent/EP3423367B1/en active Active
- 2017-02-24 JP JP2018544912A patent/JP6953022B2/en active Active
- 2017-02-24 ES ES17760501T patent/ES2935495T3/en active Active
- 2017-02-24 PL PL17760501.1T patent/PL3423367T3/en unknown
- 2017-02-24 WO PCT/US2017/019274 patent/WO2017151419A1/en active Application Filing
- 2017-02-24 CA CA3015350A patent/CA3015350C/en active Active
- 2017-02-24 KR KR1020187028204A patent/KR20180120725A/en not_active Application Discontinuation
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- 2019-01-14 HK HK19100608.3A patent/HK1258247A1/en unknown
Also Published As
Publication number | Publication date |
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CN109219563A (en) | 2019-01-15 |
EP3423367A1 (en) | 2019-01-09 |
ES2935495T3 (en) | 2023-03-07 |
KR20180120725A (en) | 2018-11-06 |
AU2017228251A1 (en) | 2018-09-27 |
EP3423367A4 (en) | 2020-03-04 |
AU2017228251B2 (en) | 2023-04-06 |
BR112018067346A2 (en) | 2019-01-08 |
BR112018067346B1 (en) | 2022-11-29 |
WO2017151419A1 (en) | 2017-09-08 |
CN109219563B (en) | 2020-03-17 |
CA3015350A1 (en) | 2017-09-08 |
HK1258247A1 (en) | 2019-11-08 |
CA3015350C (en) | 2023-08-22 |
PL3423367T3 (en) | 2023-03-13 |
JP2019510693A (en) | 2019-04-18 |
JP6953022B2 (en) | 2021-10-27 |
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