The present invention generally relates to container and lid combinations, and more particularly to container-lid combinations operable to enhance lid-to-container retention or enhance the secured relationship of lids to containers, particularly with regard to drink container and lid combinations.
U.S. Pat. No. 4,074,827 ('827 Patent), issued to Labe, III, discloses a Multi-Purpose Closure for a Container. The closure includes a base member having a central portion and a peripheral flange and a cover member also having a central portion and a peripheral flange. The cover member is adapted to be releasably secured to the base member such that when secured a cavity is formed between the respective members. The cavity is adapted for holding products, e.g., premiums or advertising material therein.
Alternatively, a game or amusement device can be disposed within the cavity. To that end, in one embodiment of the invention the base member includes at least one recess and at least one ball adapted to fit within the recess to provide a game of skill. Means are provided, such as a cross-cut in the closure to enable a straw to be extended therethrough and into the container with the closure in place. A marginal portion is provided in one embodiment on the flange of the cover member to facilitate the separation of the cover member from the base member.
U.S. Pat. No. 7,357,272 ('272 Patent), issued to Maxwell, discloses a Ventable Container Assembly. The '272 Patent describes a ventable container including a container bottom having an inner cavity. The container bottom further has a side wall that terminates in a container rim, and a selectively detachable lid. The lid includes a central panel and peripheral sealing lip that surrounds the panel.
The peripheral sealing lip has a generally inverted U-shaped cross-section that defines a lid channel adapted to receive the container rim, the lid channel being further adapted to position the lid at a first position wherein sealed engagement of the container is effectuated and at a first position relative to the container rim wherein an air passage from the inner cavity to the container surroundings is provided.
U.S. Pat. No. 9,238,529 ('529 Patent), issued to Newman et al., discloses a Lid for a Drink Cup. The '529 Patent describes a lid for a drink cup having a cover, and a slider, the slider engaged in sliding motion on the top of a disc of the cover. The disc has an aperture spaced apart from a flap. The slider is able to move to a position covering the aperture so as to prevent liquid from exiting the drink cup and, the slider is also able to move to a position to uncover the aperture to allow liquid to exit the drink cup. When the slider is positioned over the flap, the flap is forced to open slightly to allow air to enter the drink cup for venting action.
United States Patent Application Publication No. 2005/0023183, authored by Banik et al., describes a container for containing articles. The container comprises a first section and a second section. The first section is capable of engaging the second section to form a hermetic seal. The first section has a first cavity that is surrounded by a first peripheral wall and a peripheral edge. The first peripheral wall has a first surface that is angled toward the peripheral edge. The second section has a second peripheral wall that is capable of sliding between the first peripheral wall and the edge to form a hermetic seal.
United States Patent Application Publication No. 2006/0180028, authored by Burchard, describes a lid for a beverage container for holding a decoction beverage, preferably a disposable tea container with a base plate and a covering arranged at a distance from the base plate in which case between the base plate and the covering a holding space bounded on the sides by a surrounding side wall is formed. A first opening is provided in the base plate through which a decoction unit holding decoction materials can be guided and a second opening smaller than the first opening being formed in the covering or in the region of the covering through which a section of the decoction unit can be guided, the holding space being of dimensions such as to hold at least part of the decoction unit.
United States Patent Application Publication No. 2008/0011762, authored by Boone, describes a splash-proof cup lid that includes plural barriers disposed on the undersurface of the cup lid. The barriers are strategically positioned and uniquely configured to prevent liquid from sloshing through the drink opening when the cup is in an upright or slightly tilted position and is bumped or jarred. The barriers however, do not prevent the liquid from flowing through the drink opening when the cup is tilted to a drinking position.
United States Patent Application Publication No. 2011/0068105, authored by Pohlman et al., describes a container including a lid adapted to seal with a base. The lid and base rims each have vertical segments that mate upon sealing the container. The mating segments form a vertical seal zone. The vertical seal zone has a width extending across the rim surfaces. One or more vent channels are disposed on either or both rims. Each vent channel extends partially into the vertical seal zone.
When pressure inside the container reaches a critical level, the lid rises and reduces the width of the seal zone, creating a vent point. Pressurized vapors traveling through the vent channel overcome rim-engaging forces at the vent point and pass through the engaged rims. Once pressure is purged, the lid descends and resumes its sealed arrangement with the base. The rims may respectively include horizontally oriented segments that engage each other to from a horizontal seal zone.
The primary objective of this invention is the provision of a number liquid lid-container combinations for maximizing lid-to-container retention or to prevent lids from becoming inadvertently removed from containers once outfitted thereupon. To achieve this basic objective, the present invention generally provides container lids having a rim-receiving groove, a lid wall, and a resilient portion extending intermediate the rim-receiving groove and the lid wall.
The resilient portion is resiliently actuable intermediate an unlocked configuration and a locked configuration, and further preferably comprises at least one indentation-engaging portion. The rim-receiving groove receives the upper container rim, and the at least one indentation-engaging portion engages the at least one indentation when in the locked configuration. Together, the rim-receiving groove and the at least one indentation-engaging portion lock the container lid to the upper container rim of a liquid container when in the locked configuration for maximizing lid-to-container retention.
The container lids according to the present invention are stackable in a series of identical container lids. The series of identical container lids have a relatively reduced stacked height when in the unlocked configuration as compared to the locked configuration and further have a reduced lid-to-lid contact surface area when in the locked configuration for reducing lid-to-lid adhesion. The user may thus select either the unlocked or locked configurations when packaging container lids according to the present invention depending on the requirements of the user.
The container lids according to the present invention are further usable in combination with a particularly manufactured liquid container according to the present invention. The liquid container preferably comprises or includes an upper container rim and a container wall extending downwardly from the upper container rim. The container wall comprises a seam and at least one indentation at the inner container surface. The seam extends orthogonally relative to the container rim, and the at least one indentation extends outwardly at the inner container surface of the container wall.
The at least one indentation comprises a primary indentation, the primary indentation preferably traverses the seam in parallel relation to the container rim. The primary indentation traverses the seam at the inner container surface such that the seam at the inner container surface bisects the primary indentation in substantially equal half portions. The container wall may further preferably comprise a series of secondary indentations that extend outwardly in inferior adjacency to the upper container rim at the inner surface of the container wall in parallel relation to the container rim and in coplanar relation with the primary indentation.
The rim-receiving groove of the container lids preferably comprises an outer groove wall and an inner groove wall. The wall-to-groove resilient portion is preferably L-shaped and connected to the inner groove wall at a first pivot point. The L-shaped resilient portion comprises a base portion and an upright portion that pivot between the unlocked and locked positions. The base portion extends inwardly from the inner groove wall and the upright portion extends substantially parallel to the inner groove wall when in the unlocked configuration. When in the locked configuration, the base portion is coplanar with the inner groove wall and the upright portion extends inwardly relative to the inner groove wall.
The lid wall may preferably comprise a lid indentation. The lid indentation extends inwardly in superior adjacency to the wall-to-groove resilient portion. The lid indentation is connected to the upright portion at a second pivot point, and provides a resilient structural relief for enhancing movement between the locked and unlocked configuration. The outer groove wall of the rim-receiving groove preferably comprises a groove wall indentation. The groove wall indentation extends inwardly in inferior adjacency to the upper container rim for enhancing fitted engagement therewith.
The container lid is preferably provided as an ensemble and comprises a lower lid construction and an upper lid construction. The upper lid construction is seatable atop the lower lid construction and is movable relative thereto. The lower lid construction comprises a lower lid outlet and the upper lid construction comprises an outlet-covering indentation and an upper lid outlet. The outlet-covering indentation is positionable over the lower lid outlet for selectively preventing liquid egress therefrom.
The lower lid outlet is formed in a lower lid indentation and surrounded in spaced relation by a raised ridge. The outlet-covering indentation is smaller in dimension than the lower lid indentation such that an air pocket extends between the lower lid indentation and the outlet-covering indentation when the outlet-covering indentation covers the lower lid outlet. The air pocket further prevents liquid egress from the lower lid outlet.
The upper lid construction comprises an edge-located step down formation received in an edge-receiving groove formed in the lower lid construction. The step down formation enhances seated engagement between the upper and lower lid constructions. The upper lid construction is peripherally sized so as to form an air space radially and outwardly adjacent the step down formation when received in the edge-receiving groove. The air space reduces friction between the upper and lower lid constructions.
The present invention further contemplates a method of manufacturing a liquid container comprising the steps of providing a cup fan, the cup fan having a top edge, a bottom edge, and opposed side edges, and forming a container sidewall from the cup fan. The container sidewall has an open top end, an open bottom end, an inner cup surface, and outer cup surface, and a longitudinal seam extending from the open top end to the open bottom end at an overlap site of the opposed side edges.
First and second press elements are positioned adjacent the outer and inner cup surfaces, preferably at the seam site. Each of the first and second press elements have a non-planar press surface, which surfaces are matable. The outer and inner cup surfaces are pressed via or between the first and second press elements for forming at least one non-planar singular formation at the inner and outer cup surfaces traversing the seam site. The first press element may preferably comprises a female indentation and the second press element may preferably comprise a male protuberance. The male protuberance is matable with the female indentation for forming an outwardly extending indentation at the inner cup surface.
The cup fan preferably comprises a first side and a second side. The second side may preferably be processed before forming the container sidewall to remove material therefrom adjacent a first of the opposed side edges thereby forming at least one material-removed edge section. The material-removed edge section preferably extends obliquely relative to the first side for reducing a seam thickness at the inner cup surface. The material-removed edge section may extend an entire length of the first of the opposed side edges or may be formed adjacent the top edge.
Other features and objectives of the subject invention will become more evident from a consideration of the following brief descriptions of patent drawings.
Referring now to the drawings with more specificity, the following specifications generally describe a number of lid-container combinations or container assemblies operable for enhancing lid-to-container retention. The prior art perceives a need for a container assembly of low cost construction with unique structural features for preventing inadvertent lid removal from the lower liquid container while further operating to prevent liquid leakage via the junction site of the lid and seam of the lower liquid container. The address these shortcomings in the prior art, the present invention basically provides a container assembly for maximizing lid-to-container retention.
The container assembly according to the present invention preferably comprises a liquid container as at 100 or 110 and a container lid as at 200 or 210. Certain methods for forming the liquid container(s) 100 and 110 and container lids 200 and 210 are also contemplated.
The reader is directed to points 4 and 5 of the container lid 200 as shown and referenced in
The containers 100 and 110 according to the present invention thus each preferably comprise an upper container rim 101 and a container wall 102 extending downwardly from the upper container rim 101. The container wall 102 preferably comprises a seam as at 30 and a primary indentation or formation 31 that extends radially outwardly relative to the plane of the container wall 102. The seam 30 extends longitudinally or orthogonally relative to the container rim 101 and the primary indentation or formation 31 extends (radially) outwardly in inferior adjacency to the upper container rim 101 at an inner surface 103 of the container wall 102 with a corresponding protuberance 105 at the outer surface 104 of the container wall 102.
The primary indentation or formation 31 preferably traverses the seam 30 in parallel relation to the container rim 101. Container 100 differs from container 110 by having a single indentation identified as a primary indentation or formation 31 whereas container 110 has both a primary indentation or formation 31 and a series of secondary indentations or formations 37 that extend radially outwardly in inferior adjacency to the upper container rim 101 at the inner surface 103 of the container wall 102 in parallel relation to the container rim 101 and in coplanar relation with the primary indentation 31.
The container lids 200 and 210 each preferably comprise a rim-receiving groove formation as at 12, an upright lid wall as at 2, and a wall-to-groove locking mechanism or resilient portion as at 201. The wall-to-groove locking mechanism or resilient portion 201 traverses the structural distance between the lid wall 2 and the rim-receiving groove 12 and is resiliently actuable intermediate a relaxed or unlocked configuration generally depicted in solid lining in
Central to the practice of the present invention is the wall-to-groove locking mechanism or resilient portion 201. The wall-to-groove resilient portion 201 preferably comprises at least one outer indentation-engaging portion as at 9. The rim-receiving groove formation 12 receives the upper container rim 101 of the containers 100 and 110 and the at least one indentation-engaging portion 9 engages or mates with the primary indentation 31 when directed into the actuated or locked configuration. The rim-receiving groove formation 12 and the at least one outer indentation-engaging portion 9 together function to lock or fasten the container lids 200 and 210 to the containers 100 and 110 when in the actuated or locked configuration for cooperatively maximizing lid-to-container retention or preventing inadvertent removal of the lids 200/210 from the containers 100/110. It is to be understood that the rectangular form of container lid 210 is designed for use with a liquid container having a similarly shaped transverse cross-section although such an embodiment has not been specifically illustrated. The shapes of containers 100 and 110 are believed exemplary and not intended to be limiting.
The rim-receiving groove formation 12 of the container lids preferably comprises an outer groove wall as at 202 and an inner groove wall as at 203. The (wall-to-groove) resilient portion 201 is preferably L-shaped and connected to the inner groove wall 203 at a first pivot point 5. The L-shaped resilient portion 201 preferably comprises a base portion as at 204 and an upright portion as at 205, which upright portion extends orthogonally relative to the base portion 204. The base portion 204 extends inwardly from the inner groove wall 203 and the upright portion 205 extends substantially parallel to the inner groove wall 203 when the container lids 200 and 210 are in the relaxed or unlocked configuration. The base portion 204 becomes coplanar with the inner groove wall 203 and the upright portion 205 extends inwardly relative to the inner groove wall 203 when directed into the actuated or locked configuration.
The lid wall 2 may further preferably comprise a lid wall indentation as at 4. The lid wall indentation 4 extends inwardly in superior adjacency to the wall-to-groove locking mechanism or resilient portion 201. The lid wall indentation 4 is connected to the upright portion 205 at a second pivot point 6. The lid wall indentation 4 provides a resilient structural relief for enhancing movement between the locked and unlocked configurations. The outer groove wall 202 further preferably comprises a groove wall indentation as at 206. The groove wall indentation 206 extends inwardly in inferior adjacency to the upper container rim 101 when outfitted thereupon for enhancing fitted engagement therewith.
Referencing
The back side 35 as at inner groove wall 203 of the rim-receiving groove 12 of the lid construction 200 tightly or snugly engages surface of the interior layer 33 above the indention formation 31. The same tight or snug engagement occurs at the indention formation 31 at the indentation-engaging portion 9 under constant pressure as at force vector 8.
Referencing
Referencing
The upper outer edge 67 of the disk body or upper lid construction 66 tightly fits against the upper side of the circular groove 52 at the same time there is sonic very small space 42 between outer edge 78 of the disk body 66 and the inner edge 41 of the groove 52. This arrangement limits friction between outer edge 78 of the disk body 66 and the inner edge 41 of the groove 52. The groove 52 functions as guide for the disk body 66 to hold the disk body 66 in place. The liquid seal is achieved mostly through the tight or snug fit between the elliptical part 40 of the disk body and the ridge 69 around the indention 68. Air pocket(s) 64 and indention 65 on the disk body 66 create additional liquid seals.
It will thus be understood that the primary lower lid outlet 61 is preferably formed within a lower lid indentation as at 68 and surrounded in spaced relation by a raised ridge as at 69. The outlet-covering indentation 65 of the upper lid construction 66 is preferably smaller in dimension than the lower lid indentation 68 (and larger in dimension than the lower lid outlet 61) such that a circumferential air pocket 64 extends between the lower lid indentation 68 and the outlet-covering indentation 65 when the outlet-covering indentation 65 covers the lower lid outlet 61. The circumferential air pocket 64, in combination with the tight or snug fit between adjoining structures, prevents liquid egress from the lower lid outlet 61.
Referencing fragmentary, enlarged
The step down formation 208 effectively creates additional pressure between the lower surfacing 213 and the upper surfacing 214 of the lower lid construction 60 when the upper lid construction 66 is received in the insert-receiving formation 43. A downward force is referenced at 121 with a normal force 122 indicating the enhanced pressure effect at the surfacing interface as at arcuate line 215. At the same time, the step down formation 208 directs radially outwardly directed pressure or forces as at 123 with an opposing normal force 124 from the resilient return of the resiliently actuated upper lid construction 66 into the element-receiving groove 52 for enhancing periodic contact pressure between the upper lid construction 66 and the groove 52 at the edge-to-groove interface as at line 216. Thus, the interface 215 and the edge-to-groove interface 216 simultaneously provide leak proof sealing mechanisms orthogonally relative to one another as opposed to the DIXIE® brand “Smart Top Reclosable Hot Cup Lid”.
It will thus be understood that the upper lid construction 66 further preferably comprises an edge-located step down formation as at 208, which step down formation 208 is received in an edge-receiving groove 52 formed in the lower lid construction 60. The step down formation 208 enhances seated engagement between the upper and lower lid constructions 66 and 60. The upper lid construction 66 is peripherally sized so as to form an air space 42, L-shaped in transverse cross-section, radially and outwardly adjacent the step down formation 208 when relaxed and received in the edge-receiving groove 52. The air space 42 reduces friction between the upper and lower lid constructions 66 and 60 when in a relaxed state.
Comparatively referencing
The primary concept to be considered with reference to
In this regard, the reader will note that indentation-engaging portions 9 rest atop the rim-receiving groove 12 in superior adjacency to the inner groove wall 203 while simultaneously shifting pivot point 6 of an underlying container lid 200 upwardly to relatively higher portions 131 of the lid wall 2 which higher portions 131 extend in an angle 130 oblique to the plane 132 of relatively lower portions 133 of lid wall 2. This structural arrangement provides for reduced lid-to-lid contact surface area thereby reducing lid-to-lid adhesion for enabling greater ease when removing container lids 200 or 210 from the lid stack for deployment upon a liquid container as at 100 or 110.
Noting the unique structure of the containers 100 and 110, the present invention further contemplates a method of manufacturing the same. The manufacturing method according to the present invention is believed to preferably comprise the initial step of providing a cup fan as at 220. The cup fan 220 has a top edge 221, a bottom edge 222, opposed side edges as at 223, a first coated side as at 224, and a second non-coated side as at 225. The coated side 224 preferably comprises a hydrophobic material layer for preventing liquid permeation. A container sidewall or paper cone element 70 may then be formed from the cup fan 220 such that the container sidewall 70 has an open top end 227, an open bottom end 228, an inner cup surface 103, an outer cup surface 104, and a longitudinal seam 30 extending from the open top end 227 to the open bottom end 228 at an overlap site 229 of the opposed side edges 223.
A heated first press element 72 may then be positioned adjacent the outer cup surface 104. The first press element 72 has a non-planar first press surface as exemplified by a female indentation as at 73. A second press element 71 or cone mold is further positioned adjacent the inner cup surface 103, which second press element 71 also has a non-planar second press surface as exemplified by a male protuberance as at 74. The first and second press surfaces are thus matable. The outer and inner cup surfaces 104 and 103 are thus pressed between the first and second press elements 72 and 71 such that the first and second press surfaces 73 and 74 form at least one non-planar singular formation exemplified by primary indentation 31 at the inner surface 103 with a corresponding raised ridge or protuberance formation 105 at the outer cup surface 104 collectively referred to as the primary indentation formation 31.
The second side 225 may preferably be processed before forming the container sidewall or paper cone element 70 so as to remove material therefrom adjacent a first of the opposed side edges 223 thereby forming at least one material-removed edge section as at 33. The material-removed edge section 33 preferably extends obliquely relative to the planar first side 224 for reducing a seam thickness at the inner cup surface 103 as generally and comparatively depicted in
Noting that the first press element 72 preferably comprises a female indentation 73 and the second press element 71 preferably comprises a male protuberance 74, the male protuberance 74 is matable with the female indentation 73 via the material construction of the cup fan 220 for forming an outwardly extending indentation 31 at the inner cup surface 103 with corresponding protuberance 105 at the outer cup surface 104. The method may be further defined by positioning the first and second press elements 72 and 71 such that the first and second press elements 72 and 71 are positioned adjacent the seam 30 for forming the non-planar formation exemplified by the primary indentation 31 at or in traversal relative to the seam 30. In other words, the non-planar formation is preferably formed in such a way as to orthogonally traverse the seam 30 with equal portions of the indentation 31 extending across the seam 30 at the inner cup surface 103 and further being of a sufficient length to traverse the seam 30 at the outer cup surface 104.
Comparatively referencing
As a result of edge modification, the desired result of minimizing the “step” thickness at the paper seam joint 30 at the inner container surface 103 as shown in
While the above descriptions contain much specificity, this specificity should not be construed as limitations on the scope of the invention, but rather as an exemplification of the invention. In certain alternative embodiments, the basic invention may be said to essentially teach or disclose a container lid for maximizing lid-to-container retention or for preventing inadvertent removal of the container lid from a liquid container. The container lids according to the present invention may be said to essentially comprise or include a rim-receiving groove, a lid wall, and a resilient portion extending intermediate the rim-receiving groove and the lid wall.
The resilient portion is resiliently actuable intermediate an unlocked configuration and a locked configuration, and further preferably comprises at least one indentation-engaging portion. The rim-receiving groove receives the upper container rim, and the at least one indentation-engaging portion engages the at least one indentation when in the locked configuration. Together, the rim-receiving groove and the at least one indentation-engaging portion lock the container lid to the upper container rim of a liquid container when in the locked configuration for maximizing lid-to-container retention.
Referencing
The container lids according to the present invention are further usable in combination with a particularly manufactured liquid container according to the present invention. The liquid container preferably comprises or includes an upper container rim and a container wall extending downwardly from the upper container rim. The container wall comprises a seam and at least one indentation at the inner container surface. The seam extends orthogonally relative to the container rim, and the at least one indentation extends outwardly at the inner container surface of the container wall.
The at least one indentation comprises a primary indentation, the primary indentation preferably traverses the seam in parallel relation to the container rim. The primary indentation traverses the seam at the inner container surface such that the seam at the inner container surface bisects the primary indentation in substantially equal half portions 38 as generally depicted in
The rim-receiving groove of the container lids preferably comprises an outer groove wall and an inner groove wall. The wall-to-groove resilient portion as at 201 is preferably L-shaped and connected to the inner groove wall at a first pivot point. The L-shaped resilient portion comprises a base portion and an upright portion that pivot between the unlocked and locked positions. The base portion extends inwardly from the inner groove wall and the upright portion extends substantially parallel to the inner groove wall when in the unlocked configuration. When in the locked configuration, the base portion is coplanar with the inner groove wall and the upright portion extends inwardly relative to the inner groove wall.
The lid wall may preferably comprise a lid indentation as at feature 4. The lid indentation extends inwardly in superior adjacency to the wall-to-groove resilient portion. The lid indentation is connected to the upright portion at a second pivot point, and provides a resilient structural relief for enhancing movement between the locked and unlocked configuration. The outer groove wall of the rim-receiving groove preferably comprises a groove wall indentation. The groove wall indentation extends inwardly in inferior adjacency to the upper container rim for enhancing fitted engagement therewith.
The container lid is preferably provided as an ensemble comprising a lower lid construction and an upper lid construction. The upper lid construction is seatable atop the lower lid construction and is movable relative thereto. The lower lid construction comprises a lower lid outlet and the upper lid construction comprises an outlet-covering indentation and an upper lid outlet. The outlet-covering indentation is positionable over the lower lid outlet for selectively preventing liquid egress therefrom.
The lower lid outlet is formed in a lower lid indentation and surrounded in spaced relation by a raised ridge. The outlet-covering indentation is smaller in dimension than the lower lid indentation such that an air pocket extends between the lower lid indentation and the outlet-covering indentation when the outlet-covering indentation covers the lower lid outlet. The air pocket further prevents liquid egress from the lower lid outlet.
The upper lid construction comprises an edge-located step down formation received in an edge-receiving groove formed in the lower lid construction. The step down formation enhances seated engagement between the upper and lower lid constructions. The upper lid construction is peripherally sized so as to form an air space radially and outwardly adjacent the step down formation when received in the edge-receiving groove. The air space reduces friction between the upper and lower lid constructions.
The present invention further contemplates a method of manufacturing a liquid container comprising the steps of providing a cup fan, the cup fan having a top edge, a bottom edge, and opposed side edges, and forming a container sidewall from the cup fan. The container sidewall has an open top end, an open bottom end, an inner cup surface, and outer cup surface, and a longitudinal seam extending from the open top end to the open bottom end at an overlap site of the opposed side edges.
First and second press elements are positioned adjacent the outer and inner cup surfaces, preferably at the seam site. Each of the first and second press elements have a non-planar press surface, which surfaces are matable. The outer and inner cup surfaces are pressed via or between the first and second press elements for forming at least one non-planar singular formation at the inner and outer cup surfaces traversing the seam site. The first press element may preferably comprises a female indentation and the second press element may preferably comprise a male protuberance. The male protuberance is matable with the female indentation for forming an outwardly extending indentation at the inner cup surface.
The cup fan preferably comprises a first side and a second side. The second side may preferably be processed before forming the container sidewall to remove material therefrom adjacent a first of the opposed side edges thereby forming at least one material-removed edge section. The material-removed edge section preferably extends obliquely relative to the first side for reducing a seam thickness at the inner cup surface. The material-removed edge section may extend an entire length of the first of the opposed side edges or may be formed adjacent the top edge.
Accordingly, although the inventive lid-container combinations or assemblies according to the present invention have been described by reference to a number of different embodiments, it is not intended that the novel combinations or assemblies be limited thereby, but that modifications thereof are intended to be included as falling within the broad scope and spirit of the foregoing disclosure, the appended drawings, and perhaps most importantly, the following claims.
This application claims the benefit of pending U.S. Provisional Patent Application No. 62/424,243 filed in the United States Patent and Trademark Office on 18 Nov. 2016; is a Continuation-in-Part patent application of pending U.S. Utility patent application Ser. No. 14/852,411 filed in the USPTO on 11 Sep. 2015, and pending U.S. Utility patent application Ser. No. 15/657,121 filed in the USPTO on 22 Jul. 2017; and is structurally related to the ornamental designs made the subject of (i) pending U.S. Design patent application No. 29/569,201 filed in the USPTO on 24 Jun. 2016, (ii) pending U.S. Design patent application No. 29/585,055 filed in the USPTO on 19 Nov. 2016, (iii) pending U.S. Design patent application No. 29/585,057 filed in the USTPO on 19 Nov. 2016, (iv) pending U.S. Design patent application No. 29/585,058 filed in the USPTO on 19 Nov. 2016, and (v) pending U.S. Design patent application No. 29/585,059 filed in the USPTO on 19 Nov. 2016, the specifications and drawings of all of which are hereby incorporated by reference thereto so far as practicable and allowable by law.
Number | Date | Country | |
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62424243 | Nov 2016 | US |
Number | Date | Country | |
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Parent | 14852411 | Sep 2015 | US |
Child | 15815406 | US | |
Parent | 29569201 | Jun 2016 | US |
Child | 14852411 | US | |
Parent | 29585055 | Nov 2016 | US |
Child | 29569201 | US | |
Parent | 29585057 | Nov 2016 | US |
Child | 29585055 | US | |
Parent | 29585058 | Nov 2016 | US |
Child | 29585057 | US | |
Parent | 29585059 | Nov 2016 | US |
Child | 29585058 | US |