Folding carton and blank with reclosure means

Abstract

An ice cream carton blank foldable into a flat sleeve for transportation and storage and erectable into a carton which includes a top cover having left and right top cover end flaps hingedly connected thereto, a cover panel extending downwardly from the top cover having left and right cover panel end flaps hingedly connected thereto, a cover panel extending downwardly from the top cover having left and right cover panel end flaps hingedly connected thereto, an in-folding flap folded under and adhesively adhered to the cover panel and left and right junctures connecting the in-folding flap with the left and right cover panel end flaps folded into abutting relation to the left and right cover panel end flaps, the cover panel end flaps being secured in abutting relation to the top cover end flap with the junctures strengthening the corners defined thereby.

Description

BACKGROUND OF THE INVENTION

1. Field of Invention

The present invention relates generally to folding paperboard cartons and, more particularly, to a carton blank used for assembling a carton having an enhanced appearance and novel reclosure means.

2. Brief Description of the Prior Art

Folding cartons are well known in the packaging art. These cartons are constructed from flat blanks which are pre-cut and pre-scored on paperboard sheets. Carton blanks have five main panels which are adapted to form the cover, top, rear, bottom and front of an assembled carton. Each panel has a pair of end flaps which are hingedly connected by score lines formed in the paperboard.

Carton blanks are typically produced on large paperboard sheets in a multiple configuration. Individual blanks are internally “nested” on three sides to minimize the amount of excess or wasted paperboard. During the blanking operation, score lines are provided to facilitate a pre-selected flap-folding sequence. Perforations are also die-cut in the paperboard to form art-recognized tear-away and breakaway features. Score lines and perforations are created by die-stamping and die-cutting the paperboard blanks in a single, downward direction.

The carton blanks are folded over and secured with known adhesives to form carton sleeves which are typically used for packaging semi-solid consumables. During the form-filling operation, packaging machinery is used to form, fill and seal fully assembled cartons according to the prescribed folding sequence and adhesive pattern.

Numerous carton designs for packaging ice cream and the like are available. For example, commercial products of the type described in U.S. Pat. Nos. 4,679,694, 4,712,689, 4,712,730, 4,749,086, 4,756,470, 4,757,902, 4,819,864, 4,826,074, 4,838,432, 4,872,609, 5,033,622, 5,160,082 and Re. 33,204 (incorporated by reference herein) are manufactured and sold by Fold-Pak Corporation, Newark, N.Y. under the HI TECH® trade designation.

Additional carton designs are presented in U.S. Pat. Nos. 5,288,012, 5,351,881, 5,409,160, 5,411,204, 5,474,231, 5,484,102 and 5,588,584 (all incorporated herein by reference) which describe state-of-the-art blanks used to assemble a rectangular, top opening carton. Containers of the type-described in these patents are manufactured and sold under license from Fold-Pak Corporation.

To construct such a carton, first and second ends are closed by folding the bottom panel end flaps first, front panel end flaps second, top panel end flaps third and rear panel end flaps fourth and last. Prior to folding in the fourth down flap, single lines of adhesive are deposited on the previously folded end flaps. All four end flaps are secured by single glue lines to form a smooth, continuous wall at first and second ends of the carton.

In the form-filling operation, end flaps disposed adjacent a first end are folded in and adhesively secured to form one end of a carton. A filler head is aligned with the second, open end to dispense ice cream or the like, in a semi-solid state, into the partially constructed carton. Once filled, the end flaps of the open end are closed and adhesively secured to form a sealed carton.

To facilitate opening of a sealed carton and subsequent reclosure, a horizontal tear-away strip is die-stamped on the cover panel and breakaway corner tabs are similarly cut on rear panel end flaps during the blanking operation. When the cover panel is glued to the front panel to form a carton sleeve, care is taken to avoid adhesion of the tear-away strip so that it is readily removed by a consumer. During form-filling, care is taken to ensure adhesion of the breakaway corner tabs to corresponding top panel end flaps.

A consumer opens a sealed carton by removing the tear-away strip from the cover panel along pre-cut perforations. The carton seal is broken as the lid (comprised of the top and cover panels) is lifted away from the remainder of the carton, and the breakaway corner tabs (adhered to top panel end flaps) are separated from their respective rear panel end flaps.

Problems are sometimes encountered because the lid does not provide secure reclosure after the initial opening. With extended freezer storage a gap may develop between the body of the carton and the lid. This gap may lead to “freezer burn” or loss of freshness for a stored food product. In addition, the detached tear-away strip leaves behind two rows of unsightly “sawtooth” edges which do not aid reclosure or contribute aesthetic appeal.

Form failure problems can also arise if a partially filled carton collapses because of structural instability. It has been discovered that structural instability is partially caused by attaching the edge of the cover panel to the front panel so that the tear-away strip can be easily removed. And, the frequency of form failure depends on where the tear-away strip is positioned relative to the front panel.

The rectangular, top-opening cartons described above are cheaper to produce than bucket or pail-type ice cream barrels. As a result, bucket-type barrels are used to package “premium” or “upscale” products which can absorb the added costs. An advantage of the present invention is a hinged lid with the “look” of more expensive circular lids for bucket-type barrels.

This disclosure presents a paperboard blank configured to produce a carton which entirely eliminates the form failure attributed to tear-away strips. It also describes a unique reclosure means for easy handling during end use application of a carton.

OBJECTS OF THE INVENTION

Accordingly, it is a general object of the present invention to provide a carton for packaging semi-solid consumables such as ice cream and the like.

Another object of the present invention is to provide a plurality of interlocking reclosure means for easy opening, improved reclosure, reseal and durable storage of a paperboard carton.

Yet another object of the present invention is to provide a plurality of reclosure means constructed entirely from paperboard which is die-cut during the blanking operation.

A further object of the present invention is to provide a blank with unique top panel and rear panel end flaps which cooperate to avoid paperboard buildup in the end walls and facilitate form-filling into a carton.

Yet another object of the present invention is to provide a rectangular, top opening carton having a hinged lid with an up-scale appearance and the “look” of a separate, premium lid.

A still further object is to provide a rectangular, top opening carton having a hinged lid with an up-scale appearance and the “look” of a separate, premium lid with the added benefit of reinforced corner posts.

Other objects of the present invention will be apparent to those skilled in the relevant art.

SUMMARY OF THE INVENTION

One aspect of the present invention is a foldable blank for assembling a carton. The blank comprises an in-folding flap hingedly connected to a cover panel which is, in turn, hingedly connected to left and right cover panel end flaps. Left and right cover panel end flaps are also referred to as left and right posts, respectively.

The left and right junctures further connect the in-folding flap to the left and right cover panel end flaps, respectively. The left juncture is adapted for folding over onto the left cover panel end flap and the right juncture is adapted for folding over onto the right cover panel end flap, when the blank is assembled to form the inventive carton.

The left juncture has a first edge, the left cover panel end flap has a second edge, the right juncture has a third edge and the right cover panel end flap has a fourth edge. The first edge is adapted to align with the second edge, and the third edge is adapted to align with the fourth edge, when the blank is assembled to form the carton.

The left and right junctures each have a paperboard thickness of one unit, and the left and right cover panel end flaps each has a paperboard thickness of one unit. Each juncture and its corresponding cover panel are adapted to form a thickness of two units when the blank is assembled to form the carton.

The blank described above is also formed into the carton via an intermediate sleeve.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows blank A of the first embodiment featuring a locking edge, flange lip and elliptical sealing surfaces in their original condition.

FIG. 2 is a top perspective view of sleeve A′.

FIG. 3 is a fragmentary perspective view of one, open end of partially assembled carton A″ ready for a form-filling operation.

FIG. 4 is a top perspective view of fully constructed and. sealed carton A″ with cooperating top panel and rear panel end flaps.

FIG. 5 illustrates carton A″ with a flange lip and sealing surfaces in their sheared condition.

FIG. 6 displays carton A″ with lid components described as top panel, cover panel and posts.

FIG. 7 shows carton A″ with a flange lip and sealing surfaces in their sheared condition.

FIG. 8 is a fragmented, side elevational view emphasizing the relationship between the top panel and rear panel end flaps.

FIG. 9 is a cross-sectional view taken along line 9 — 9 in FIG. 8 showing the front panel end flap disposed between the bottom panel and rear panel end flaps.

FIG. 10 is a fragmented view of carton A″ with its cover panel adhered to its front panel. This figure emphasizes the spatial relationship between an illustrative, elliptical sealing surface and a flange lip which are both shown in phantom lines.

FIG. 11 is a cross-sectional view taken along line 11 — 11 in FIG. 10 showing the flange lip engaged to the locking edge to be described below.

FIG. 12 shows blank B of the second embodiment featuring a releasable lock tab and its corresponding anchoring area.

FIG. 13 is a top perspective view of sleeve B′.

FIG. 14 is a fragmentary perspective view of one, open end of partially assembled carton B″ ready for a form-filling operation.

FIG. 15 is a top perspective view of carton B″.

FIG. 16 illustrates carton B″ shown in FIG. 15 , with its seal broken and lid opened to reveal the releasable lock tab adhered to the front panel.

FIG. 17 shows carton B″ featuring the lock tab released from its perforated border and adhered to the front panel.

FIG. 18 is a fragmented front view showing the releasable lock tab anchored to the front panel.

FIG. 19 is a cross-sectional view taken along line 19 — 19 in FIG. 18 showing the spatial orientation of the lock tab with reference to the cover panel and front panel.

FIG. 20 shows blank C of the third embodiment featuring a male tab and its corresponding locking edge.

FIG. 21 shows carton C″ with its seal broken and lid opened to display the male tab of the third embodiment as well as sheared sealing surfaces disposed on the front panel.

FIG. 22 shows carton C″ with its seal broken and lid opened to display the male tab of the third embodiment as well as sheared sealing surfaces disposed on the front panel and underlying outer surface of the in-folding flap.

FIG. 23 is a front fragmented view showing the male tab engaged to the locking edge which are both shown in phantom lines.

FIG. 24 is a cross-sectional view taken along line 24 — 24 in FIG. 23 showing the male tab engaged to the locking edge.

FIG. 25 shows blank D of the fourth embodiment featuring a plurality of releasable lock tabs and their corresponding anchoring area.

FIG. 26 shows carton D″ featuring the lock tabs released from their perforated borders and adhered to the front panel.

FIG. 27 is a fragmented front view showing a releasable lock tab of the fourth embodiment adhered to the front panel.

FIG. 28 is a cross-sectional view taken along line 28 — 28 in FIG. 27 showing the spatial orientation of a lock tab of the fourth embodiment with reference to the cover panel and front panel.

FIG. 29 shows blank E of the fifth embodiment featuring a plurality of male tabs and their corresponding locking edge.

FIG. 30 illustrates carton E″ with its seal broken and lid opened to display the male tabs of the fifth embodiment as well as sheared sealing surfaces disposed on the front panel.

FIG. 31 illustrates carton E″ with its seal broken and lid opened to display the male tabs of the fifth embodiment as well as sheared sealing surfaces disposed on the front panel and underlying outer surface of the in-folding flap.

FIG. 32 shows blank F of the sixth embodiment featuring a die-cut appendage-formed in the score line disposed between the cover panel and in-folding flap. The male tabs and locking edge of the fifth embodiment are also shown.

FIG. 33 illustrates carton F″ with its seal broken and lid opened to display the die-cut appendage as well as the male tabs of the fifth embodiment.

FIG. 34 illustrates carton F″ with its seal broken and lid opened to display the die-cut appendage as well as a sheared sealing surface disposed on the underlying outer surface of the in-folding flap.

FIG. 35 shows blank G of the seventh embodiment featuring junctures which connect the in-folding flap with cover panel end flaps, and which are adapted to be folded into reinforced corner posts.

FIG. 36 is a top perspective view of sleeve G′.

FIG. 37 is a fragmentary perspective view of one, open end of partially assembled carton G″ ready for a form-filling operation.

FIG. 38 is a top perspective view of fully constructed and sealed carton G″ with cooperating top panel and rear panel end flaps.

FIG. 39 illustrates carton G″ with its lid open.

FIG. 40 shows the interior of the lid to carton G″.

FIG. 41 is a fragmented, side elevational view emphasizing the relationship between the in-folding flap, a juncture, the corresponding post and a top panel end flap.

FIG. 42 is a cross-sectional view taken along line 42 — 42 in FIG. 41 showing the cross-sectional relationship between a juncture, a post and a top panel end flap.

DETAILED DESCRIPTION OF THE INVENTION

Referring to FIG. 1 , the first embodiment of the present invention will now be described. Carton blank A is comprised of five main panels, cover panel 20 , top panel 30 , rear panel 40 , bottom panel 50 and front panel 60 . Cover panel 20 is hingedly connected by score lines 21 and 29 to cover panel end flaps 22 and 23 , respectively. Cover panel 20 is also hingedly connected by score line 25 to in-folding flap 24 . In-folding flap 24 terminates at locking edge 26 .

The plan view surface of blank A shown in FIG. 1 is the outer print side which typically displays colorful graphics identifying the contents of a filled carton. The opposite side (not shown) is the inner unfinished side which constitutes the lining of a form-filled carton. As used herein, the term “in-folding” refers to flap 24 which folds at score line 25 so that the unfinished side of in-folding flap 24 meets the unfinished side of cover panel 20 for adhesive attachment.

Top panel 30 is hingedly connected by score lines 31 and 39 to top panel end flaps 32 and 33 , respectively. Top panel end flaps 32 and 33 have smooth edges 34 and 35 . Disposed adjacent smooth edge 34 is relief notch 36 , and adjacent smooth edge 35 is relief notch 37 . Rear panel 40 is hingedly connected by score lines 41 and 49 to rear panel end flaps 42 and 43 . Rear panel end flaps 42 and 43 have smooth edge portions 44 and 45 .

Bottom panel 50 is shown hingedly connected by score lines 51 and 59 to respective bottom panel end flaps 52 and 53 . Front panel 60 is shown hingedly connected by score lines 61 and 69 to front panel end flaps 62 and 63 . Front panel 60 is connected to flange lip 66 by joint line 110 formed as a solid score or perforation. Front panel end flaps 62 and 63 are connected with respective joint lines 120 and 130 to lips 64 and 65 . Additionally, front panel 60 is shown with two die-cut sealing surfaces 67 and 68 .

FIG. 1 shows five main panels hingedly connected to each other by score lines 70 , 80 , 90 and 100 stamped into the paperboard. Each main panel is hingedly connected to end flaps 22 , 32 , 42 , 52 and 62 by score lines 21 , 31 , 41 , 51 and 61 , and end flaps 23 , 33 , 43 , 53 and 63 are hingedly connected to respective main panels by score lines 29 , 39 , 49 , 59 and 69 , similarly stamped into the paperboard. All score lines are formed by die-stamping the blanks in a single, downward direction using scoring rules. Score line 25 connecting in-folding flap 24 to cover panel 20 is also die-stamped in the same direction to allow in-folding of the unfinished inner surface of flap 24 so that it can be glued to the unfinished inner surface of cover panel 20 .

Carton blank A has a substantially uniform paperboard thickness. Perforations are formed by die-cutting in the same blanking operation which produces the die-stamped score lines. The perforations are cut through the entire thickness of the paperboard in a pattern having intervening spaces of preselected length, for example, one-eighth of an inch. Sealing surfaces 67 and 68 are also formed in the single blanking operation which produces the score lines and joint lines. But, the die-cuts defining sealing surfaces 67 and 68 have a depth which is approximately one-half the thickness of the paperboard blank.

FIG. 2 shows sleeve A′ which is formed by first folding the blank at score line 25 and gluing the unfinished inner surfaces (not shown) of in-folding flap 24 to the unfinished inner surface of cover panel 20 . The blank is next folded at score lines 80 and 100 and lip 66 (shown in FIG. 1 ) is folded so that its outer print surface joins the outer print surface of front panel 60 . Adhesive is then deposited on sealing surfaces 67 and 68 of front panel 60 and the underlying outer surface of in-folding flap 24 is glued to surfaces 67 and 68 to form sleeve A′.

FIG. 10 is a fragmented view of cover panel 20 adhered to front panel 60 . It shows the spatial relationship between sealing surface 68 (shown mostly in phantom lines with a portion displayed by partial cutaway view AA through cover panel 20 ) and lip 66 (shown with phantom lines).

FIG. 11 is a cross-sectional view taken along line 11 — 11 in FIG. 10 . This figure emphasizes the engagement of locking edge 26 to flange lip 66 . In-folding flap 24 is folded at score line 25 and the unfinished inner surface of in-folding flap 24 is shown glued to the unfinished inner surface of cover panel 20 . Lip 66 connected to front panel 60 is bent at joint line 110 so that the finished surface of lip 66 joins the outer print surface of front panel 60 . In this configuration, locking edge 26 on in-folding flap 24 substantially engages flange lip 66 connected to front panel 60 .

Referring back to FIG. 2 , lips 64 and 65 are folded inward along joint lines 120 and 130 and tucked in between the top panel and bottom panel end flaps during a form-filling operation.

FIG. 3 shows an open end of a partially constructed carton ready for filling. After filling, the open end is closed by folding bottom panel end flap 52 first, then front panel end flap 62 second with lip 64 bent inward along joint line 120 and over bottom panel end flap 52 . Top panel end flap 32 is folded third so that lip 64 is tucked in between bottom panel end flap 52 and top panel 30 . A single line of adhesive is deposited on the folded end flaps, then rear panel end flap 42 is folded down fourth and last to form a smooth, continuous end wall.

FIG. 4 shows a fully sealed carton A″. Relief notch 37 is shown engaged to rear panel end flap 43 . Smooth edge 45 in combination with relief notch 37 against rear panel end flap 43 provides a flat, co-planar end wall with no paperboard build-up or protrusions.

FIG. 5 illustrates the carton shown in FIG. 4 . The seal is broken and lid 10 is open. To break the seal of carton A″, a consumer inserts a digit under cover panel 20 and lifts it away from front panel 60 . According to the first embodiment, this action shears approximately half a layer of paperboard along the die-cuts defining sealing surfaces 67 and 68 , leaving behind sheared sealing surfaces 67 A and 68 A having depths which are approximately half the thickness of the paperboard stock.

The illustrative shape of the ellipse provides for easy opening. The tapered ends are sheared away easily with shear gradually increasing as the wider mid-point of the ellipse is approached.

FIG. 7 shows sheared sealing surfaces 67 B and 68 B that are formed during opening. In this example, sheared sealing surfaces 67 B and 68 B are formed from a half layer thickness of paperboard substrate, but one skilled in the art could readily adapt alternative depths to this embodiment of the present invention.

Lid 10 is shown in FIG. 6 . It is comprised of cover panel 20 with posts 22 and 23 , as well as top panel 30 with end flaps 32 and 33 and their smooth edges 34 and 35 . FIG. 7 shows that lid 10 is twice the thickness of the paperboard where cover panel 20 is glued to the unfinished inner surface of in-folding flap 24 . As shown in FIGS. 6 and 7 , lid 10 has the “look” of more expensive circular lids for bucket-type barrels. Aesthetic appeal is created by hinged lid 10 which looks like a separate structure with smooth edges 34 and 35 accentuating the spatial separation from the ends of carton A″.

FIG. 6 also shows the relationship between smooth edge 35 and smooth edge portion 45 at one end of open carton A″. FIG. 8 is a fragmented side view showing the relationship between smooth edge 34 and smooth edge portion 44 at the opposite end, of the opened carton. FIG. 9 is a cross-sectional view taken along line 9 — 9 in FIG. 8 . It shows front panel end flap 62 disposed between bottom panel end flap 52 and rear panel end flap 42 . Lip 64 is shown folded along joint line 120 and over bottom panel end flap 52 . Top panel 30 is adapted to be lowered so that top panel end flap 32 fits into the pocket between the front panel end flap 62 and rear panel end flap 42 when lid 10 is reclosed.

FIG. 7 shows flange lip 66 connected to front panel 60 by means of joint line 110 . Locking edge 26 on in-folding flap 24 is also displayed. As will be appreciated by skilled artisans, flange lip 66 retains its paperboard “memory” from initial manufacture until the seal of the carton is broken. This paperboard memory allows flange lip 66 to provide bias against the underlying outer surface of in-folding flap 24 and to lock against edge 26 on in-folding flap 24 .

FIG. 10 shows a fragmented view of locking edge 26 engaged to flange lip 66 in phantom lines beneath cover panel 20 . FIG. 11 shows the cross-sectional view of locking edge 26 on in-folding flap 24 substantially engaged to flange lip 66 which is connected to front panel 60 . The combination of the bias provided by flange lip 66 against the underlying outer surface of in-folding flap 24 and the flange-type locking arrangement between locking edge 26 and flange lip 66 provide one embodiment of the reclosure mechanism of the present invention.

The second embodiment of this invention will now be described in connection with FIGS. 12-19 . Blank embodiment B shown in FIG. 12 comprises cover panel 20 , top panel 30 , rear panel 40 , bottom panel 50 and front panel 60 . Cover panel 20 is hingedly connected by score line 25 to in-folding flap 24 . On the edge of in-folding flap 24 is releasable lock tab 200 which is formed by perforated border 201 . FIG. 12 shows the outer print surface of blank B. Artwork displayed on this outer surface is ordinarily printed with acrylic pigments. Anchoring area 220 is patterned out of the artwork so that releasable lock tab 200 can be adhesively secured without interference from acrylic pigments.

In connection with blank embodiment B, rear panel end flaps 42 and 43 include breakaway tabs 202 and 203 which are formed in the flaps by perforation lines 204 and 205 . Lip 266 is connected to front panel 60 by joint line 210 , while front panel end flaps 62 and 63 are connected to lips 64 and 65 by joint lines 120 and 130 .

In-folding flap 24 is bent at score line 25 and the unfinished inner surface of flap 24 is glued to the unfinished inner surface of cover panel 20 , with care being taken to avoid adhesive on the unfinished inside surface of releasable lock tab 200 . Sleeve B′, shown in FIG. 13 , is next formed by folding blank B at score lines 80 and 100 and placing adhesive substantially on the outside surface of lock tab 200 with care being taken to avoid adhesive on the remainder of the outer surface of flap 24 , so that only releasable lock tab 200 is glued to the outer print side of front panel 60 .

FIG. 18 is a fragmented view showing releasable lock tab 200 (shown in phantom lines) adhered to front panel 60 . FIG. 19 is a cross-sectional view taken along line 19 — 19 in FIG. 18 . FIG. 19 shows releasable lock tab 200 situated between cover panel 20 and front panel 60 in assembled carton B″. The inside surface of releasable lock tab 200 is free of adhesive and rests on the surface of cover panel 20 , while the outside surface of releasable lock tab 200 is glued to the surface of front panel 60 .

Referring back to FIG. 12 , lips 64 , 65 and 266 are folded inward along joint lines 120 , 210 and 130 during the form-filling operation. Lips 64 and 65 are then tucked in between the top panel and bottom panel end flaps, and lip 266 is tucked in between the top and front panels. For example, FIG. 14 shows one open end of partially formed carton B″ ready for filling. The open end is closed by folding bottom panel end flap 52 first, then bending lip 64 inward along joint line 120 and next folding front panel end flap 62 over bottom panel end flap 52 while tucking lip 64 under top panel 30 . Top panel end flap 32 is folded next and adhesive is deposited on the folded flaps. Rear panel end flap 42 is folded down last so that breakaway tab 202 is adhered to top panel end flap 32 .

FIG. 15 shows carton B″ with a fully sealed end wherein breakaway tab 203 of rear panel end flap 43 is shown adhered to top panel end flap 33 . To open carton B″, a consumer inserts two digits under cover panel 20 on either side of releasable lock tab 200 and lifts away lid 10 . FIG. 16 shows carton B″ with its seal broken and lid 10 in the open position. In this condition, releasable lock tab 200 is detached from in-folding flap 24 and adhered to front panel 60 .

FIG. 17 shows open lid 10 with perforated border 201 on in-folding flap 24 from which releasable lock tab 200 was detached as the seal of carton B″ was broken. On carton B″, perforated border 201 and tab 200 comprise interlocking means. When lid 10 is lowered for resealing, releasable lock tab 200 (now adhered to front panel 60 ) fits tightly into perforated border 201 which acts as a locking edge.

The third embodiment of this invention will now be described in connection with FIGS. 20-24 . FIG. 20 shows blank embodiment C which has flange lip 366 connected to front panel 60 by joint line 310 . Joint line 310 is shown as a die-cut perforation having a pattern which includes at least one male tab 315 . The perforated pattern is cut through the entire thickness of paperboard with intervening areas of pre-selected lengths including, for example, uncut areas on either side of tab 315 . Alternatively, the depth of the die-cut forming male tab 315 can be less than the entire paperboard thickness, preferably, between about one quarter to about three-quarter deep. One skilled in the art will also appreciate that joint line 310 can be formed as a solid score having within it a die-cut male tab of varying depth.

FIG. 20 also shows in-folding flap 24 of blank C terminating at locking edge 226 and front panel 60 having two die-cut sealing surfaces 367 and 368 on its outer print surface. Sealing surfaces 367 and 368 have a depth which is approximately half the thickness of paperboard blank C.

Blank C is folded, filled and assembled into carton C″ in the same manner described for blank B and corresponding carton B″—except for the alignment of tab 315 with locking edge 226 and the gluing of sealing surfaces 367 and 368 during sleeve formation. In-folding flap 24 of blank C is bent at score line 25 and the unfinished inner surface of in-folding flap 24 is glued to the unfinished inner surface of cover panel 20 . Intermediate sleeve C′ is next formed by folding blank C at score lines 80 and 100 and placing adhesive on sealing surfaces 367 and 368 while avoiding adhesive deposits on the remainder of the outer surface of front panel 60 , so that only sealing surfaces 367 and 368 are glued to the underlying outer surface of in-folding flap 24 .

FIG. 23 is a fragmented view showing cover panel 20 adhered to front panel 60 on carton C″. It shows the spatial relationship between sealing surface 368 (shown partially in phantom lines with a portion displayed by cut-away view CC through cover panel 20 ) and male tab 315 (shown with phantom lines). FIG. 24 is a cross-sectional view taken along line 24 — 24 in FIG. 23 . It emphasizes the engagement of male tab 315 to locking edge 226 .

FIG. 21 shows carton C″ with its seal broken and lid 10 open. Lip 366 is connected to front panel 60 by bent, joint line 310 . Male tab 315 is perpendicular to the plane of front panel 60 and positioned to function as a locking tab when lid 10 is lowered for resealing. To break the seal of carton C″, the end-user inserts a digit under cover panel 20 and lifts it away from front panel 60 . As previously explained, this action shears away half a layer of paperboard along die-cuts forming sealing surfaces 367 and 368 , leaving behind sheared sealing surfaces 367 A and 368 A which are half the thickness of the paperboard stock. FIG. 22 shows sheared sealing surfaces 367 B and 368 B now adhered to in-folding flap 24 . By way of illustration, they are formed from the other half thickness of paperboard.

FIG. 24 shows a cross-sectional view of locking edge 226 engaged to male tab 315 under top panel 30 . The space between locking edge 226 and top panel 30 provides a slot which is occupied by male tab 315 in the locked position. The bias provided by tab 315 against locking edge 226 as lid 10 is opened and closed provides yet another embodiment of the locking/reseal mechanism of the present invention.

It is not necessary to center male tab 315 along joint line 310 . Nor is this embodiment limited to a single male tab. Similar benefits can be achieved using a plurality of male tabs which engage locking edge 226 at pre-selected locations.

The fourth embodiment of this invention will now be described in connection with FIGS. 25-28 . Blank embodiment D shown in FIG. 25 is similar to embodiment B illustrated by FIG. 12 , with the exception of having two releasable lock tabs 300 and 400 on the edge of in-folding flap 24 . Releasable lock tabs 300 and 400 are formed by perforated borders 301 and 401 , respectively. In-folding flap 24 is bent at score line 25 and the unfinished inner surface of in-folding flap 24 is glued to the unfinished inner surface of cover panel 20 , with care being taken to avoid adhesive deposits on the unfinished inner surfaces of releasable lock tabs 300 and 400 .

A sleeve is next formed by folding blank D at score lines 80 and 100 and placing adhesive on the outside surfaces of releasable lock tabs 300 and 400 while avoiding adhesive on the remainder of the underlying outer surface of in-folding flap 24 , so that only releasable lock tabs 300 and 400 are glued to the outer print surface.of front panel 60 .

FIG. 27 is a fragmented view showing releasable lock tab 300 (in phantom lines) adhered to front panel 60 . FIG. 28 is a cross-sectional view taken along line 28 — 28 in FIG. 27 . FIG. 28 shows releasable lock tab 300 situated between cover panel 20 and front panel 60 in an assembled carton. The inside surface of releasable lock tab 300 is free of glue and rests on the surface of cover panel 20 , while the outside surface of releasable lock tab 300 is secured to the surface of front panel 60 .

To open carton D″, a consumer inserts a digit under cover panel 20 on either side of releasable lock tabs 300 and/or 400 . Lid 10 is then lifted away from the receptacle portion or body of the carton. FIG. 22 shows carton D″ with its seal broken, lid 10 in the open position with releasable lock tabs 300 and 400 detached from in-folding flap 24 and now adhered to front panel 60 . Open lid 10 has perforated borders 301 and 401 on in-folding flap 24 from which releasable lock tabs 300 and 400 were detached as the seal of carton D″ was broken. With respect to carton D″, perforated borders 301 and 401 , in conjunction with releasable lock tabs 300 and 400 , comprise the interlocking means. When lid 10 is lowered for resealing, releasable lock tabs 300 and 400 cooperate with perforated borders 301 and 401 to effect a seal.

The fifth embodiment of this invention will now be described in connection with FIGS. 29-31 . Blank embodiment E shown in FIG. 29 is similar to embodiment C illustrated by FIG. 20 , except for the plurality of male tabs 415 and 515 . FIG. 29 shows blank embodiment E with flange lip 466 connected to front panel 60 by joint line 410 . Line 410 is shown as a die-cut perforation having a pattern which includes at least one male tab.

In FIG. 29 , joint line 410 is cut through the entire thickness of paperboard with intervening areas of pre-selected length (for example, one-eighth of an inch) between cuts. Male tabs 415 and 515 can be formed by die-cuts through the paperboard or by shallow incisions ranging from about one-quarter to about three-quarters of the paperboard thickness.

FIG. 29 also shows in-folding flap 24 of blank E terminating at locking edge 226 . Front panel 60 is shown having two die-cut sealing surfaces 367 and 368 on its outer print surface. Sealing surfaces 367 and 368 have depths which are approximately half the thickness of paperboard blank E. The folding sequence of blank E is identical to that of blank C—except for the alignment of male tabs 415 and 515 with locking edge 226 .

FIG. 30 shows carton E″ with its seal broken and lid 10 open. Lip 466 is connected to front panel 60 by means of bent joint line 410 . In this configuration, male tabs 415 and 515 are perpendicular to the plane of front panel 60 . They are positioned to function as locking tabs when lid 10 is brought back down for resealing. As on carton C″, a space between locking edge 226 and top panel 30 provides a slot for male tabs 415 and 515 in the locked position. As lid 10 is opened and closed, the bias provided by male tabs 415 and 515 against locking edge 226 constitutes another embodiment of the locking mechanism of the present invention. For additional detail, FIG. 31 shows sheared sealing surfaces 367 B and 368 B attached to in-folding flap 24 . As previously described, they are sheared to a half layer thickness of paperboard when the carton is opened.

The sixth embodiment of this invention will now be described in connection with FIGS. 32-34 . Referring to FIG. 32 , foldable blank F is shown with die-cut appendage 230 formed in score line 25 connecting in-folding flap 24 to cover panel 20 , On blank F, in-folding flap 24 also terminates at locking edge 226 . Male tabs 415 , 515 and 615 are die-cuts in joint line 410 which connects flange lip 466 to front panel 60 . Line 410 is shown in FIG. 32 as a die-cut perforation having a pattern which includes the male tabs. The depth of the die-cuts forming male tabs 415 , 515 and 615 can be less than the entire paperboard thickness, preferably between about one quarter to about three-quarters deep. One skilled in the art will also appreciate that joint line 410 can be formed as a solid score having within it die-cut male tabs of varying depth.

FIG. 32 also shows front panel 60 having die-cut sealing surface 369 on its outer print surface. Sealing surface 369 has a depth which is approximately half the thickness of paperboard blank F. During sleeve assembly, the underlying outer surface of in-folding flap 24 is glued to sealing surface 369 on front panel 60 .

Referring to FIG. 33 , carton F″ is shown with its seal broken and lid 10 open. Bent lip 466 is connected to front panel 60 by joint line 410 . In this configuration, male tabs 415 , 515 and 615 are perpendicular to the plane of front panel 60 . They are positioned to function as reclosure means when lid 10 is lowered. A space between locking edge 226 (not shown in FIG. 33 ) and top panel 30 provides a slot for male tabs 415 , 515 and 615 in the closed position. As lid 10 is opened and closed, the bias provided by male tabs 415 , 515 and 615 against locking edge 226 constitutes another reclosure embodiment of the present invention.

FIG. 33 also shows appendage 230 formed in score line 25 connecting in-folding flap 24 (not shown) to cover panel 20 in carton F″. Appendage 230 is shown tangential to the plane of cover panel 20 . It is used by a consumer to lift lid 10 as an aid to breaking the seal of carton F″, leaving behind sheared sealing surface 369 A having a depth approximately half the thickness of the paperboard. FIG. 34 shows sheared sealing surface 369 B now attached to in-folding flap 24 . As previously explained, sheared sealing surface 369 B has a depth which approximates half the paperboard thickness.

Referring to FIG. 35 , the seventh embodiment of the present invention will now be described. Carton blank G is comprised of five main panels, cover panel 20 , top panel 30 , rear panel 40 , bottom panel 50 and front panel 60 . Cover panel 20 is hingedly connected by score lines 21 and 29 to cover panel end flaps 22 and 23 , respectively. Cover panel end flaps 22 and 23 are also referred to as “posts” 22 and 23 , respectively, throughout this disclosure. With respect to the seventh embodiment, carton G″ ( FIGS. 38-42 ) posts 22 and 23 are also referred to as “reinforced corner posts” 22 and 23 , respectively. Top panel 30 is hingedly connected by score lines 31 and 39 to top panel end flaps 32 and 33 , respectively. Other general features with respect to the blank have been reiterated hereinabove.

Carton blank G has a substantially uniform paperboard thickness. When the paperboard is folded over onto itself, a double layer of board is formed which is twice as thick (and strong) as the single layer thickness. Referring again to FIG. 35 with particularity to the seventh embodiment, blank G features junctures 700 and 700 ′ which connect in-folding flap 24 with posts 22 and 23 , respectively, and which features are adapted to be folded into reinforced corner posts.

FIG. 36 is a top perspective view of sleeve G′. From this perspective, junctures 700 ′ and 700 cannot be seen as they are beneath posts 23 and 22 , respectively, and were placed there during the formation of sleeve G′ as has been generally reiterated hereinabove for other sleeve embodiments.

FIG. 37 is a fragmentary perspective view of one, open end of partially assembled carton G″ ready for a form-filling operation. FIG. 38 is a top perspective view of fully constructed and sealed carton G″ with cooperating top panel and rear panel end flaps. From this perspective also, junctures 700 ′ and 700 cannot be seen. For instance, juncture 700 ′ is now folded and concealed beneath post 23 .

FIG. 39 shows carton G″ with lid 10 partially open. FIG. 40 shows lid 10 completely open exposing the interior “underside” of the lid to carton G″. Taking FIGS. 39 and 40 in combination, as lid 10 is opened, posts 23 and 22 are subject to shearing stress as the outward force separating lid 10 from the body of carton G″ pulls on the two junctures formed by the two relevant corners of top panel 30 , top panel end flaps 33 and 32 , and the cover panel 20 .

Junctures 700 and 700 ′ have been found to be beneficial in protecting the corner posts′ points of adherence to end flaps 32 and 33 and the overall integrity of lid 10 from the shear stress upon opening. For instance, FIG. 41 is a fragmented, side elevational view emphasizing the relationship between one relevant corner of top panel 30 , in-folding flap 24 , juncture 700 , post 22 and top panel end flap 32 . FIG. 42 is a cross-sectional view taken along line 42 - 42 in FIG. 41 and shows the cross-section between juncture 700 , post 22 and top panel end flap 32 . As illustrated, juncture 700 of “one” paperboard thickness is folded over onto post 22 also of “one” paperboard thickness thereby forming a double layer of paperboard which is twice as tick (and strong) as the single layer thickness.

The edge of juncture 700 aligns with the edge of top panel end flap 32 as shown in FIG. 42 thereby extending the double layer of paperboard contiguous with top panel end flap 32 . Juncture 700 reinforces corner post 22 so that it is protected from the shear stress which it is subjected to upon opening of lid 10 .

Various modifications and alterations to the present invention may be appreciated based on a review of this disclosure. These changes and additions are intended to be within the scope and spirit of this invention as defined by the following claims.

Claims

1. A paperboard carton, comprising:(a) an in-folding flap adhesively connected to a cover panel, said cover panel connected to left and right cover panel end flaps; (b) a left juncture further connecting said in-folding flap to said left cover panel end flap; and (c) a right juncture further connecting said in-folding flap to said right cover panel end flap; wherein said left juncture is folded over onto said left cover panel end flap and said right juncture is folded over onto said right cover panel end flap.

2. The carton of claim 1, wherein said cover panel is hingedly connected to a top cover and extends perpendicularly thereto, said top cover having left and right top cover end flaps hingedly connected thereto and extending perpendicularly thereto to receive in abutting relation said left and right cover panel end flaps respectively, said left juncture has a first edge and said left top cover end flap has a second edge, and wherein said first edge is aligned with said second edge.

3. The carton of claim 1, wherein said cover panel is hingedly connected to a top cover and extends perpendicularly thereto, said top cover having left and right top cover end flaps hingedly connected thereto and extending perpendicularly thereto to receive in abutting relation said left and right cover panel end flaps respectively, said right juncture has a third edge and said right top cover end flap has a fourth edge, and wherein said third edge is aligned with said fourth edge.

4. The carton of claim 1, wherein said left juncture has a paperboard thickness of one unit and said left cover panel end flap has a paperboard thickness of one unit, and wherein said left juncture and said left cover panel end flap form a thickness of two units.

5. The carton of claim 1, wherein said right juncture has a paperboard thickness of one unit and said right cover panel end flap has a paperboard thickness of one unit, and wherein said right juncture and said right cover panel end flap form a thickness of two units.

6. The paperboard carton of claim 1 wherein said cover panel is hingedly connected to a top cover and extends with said in-folding flap downwardly therefrom, said top cover having left and right top cover end flaps extending downwardly therefrom, said left and right cover panel end flaps being adhesively adhered to said left and right top cover end flaps respectively, a rear panel hingedly connected to said top cover and extending downwardly therefrom, a bottom panel hingedly connected to said rear panel and extending forwardly therefrom, a front panel hingedly connected to said bottom panel and extending upwardly therefrom, said rear, bottom and front panels each having left and right end flaps hingedly connected therewith which are folded inwardly to form carton sides, said in-folding flap being adhesively adhered in abutting relation to a marginal free edge of said front panel.

7. The carton of claim 6, wherein said left juncture has a first edge and said left top cover end flap has a second edge, and wherein said first edge is aligned with said second edge.

8. The carton of claim 7, wherein said right juncture has a third edge and said right top cover end flap has a fourth edge, and wherein said third edge is aligned with said fourth edge.

9. A foldable blank comprisinga top cover having left and right top cover end flaps hingedly connected thereto, a front cover panel hinged to a front edge of said top cover, said front cover panel having left and right cover panel end flaps hingedly connected thereto, an in-folding flap connected to said cover panel, a left juncture further connecting said in-folding flap to said left cover panel end flap, a right juncture further connecting said in-folding flap to said right cover panel end flap, said in-folding flap and said left and right junctures being hingedly connected with said front cover panel and said left and right cover panel end flaps respectively so as to be foldable into abutting relation thereto, said front cover panel disposed in abutting relation thereto with said in-folding panel and said left and right top cover end flaps being constructed and arranged to be folded with respect to said top cover into an erected position extending generally perpendicular thereto, said left and right cover panel end flaps when in said erected position with said left and right junctures disposed in abutting relation thereto being constructed and arranged to be folded into an erected position wherein said left and right cover panel end flaps are disposed in engagement with said left and right top cover end flaps respectively.

10. The blank of claim 9, wherein said left juncture has a first edge and said left top cover end flap has a second edge, and wherein said first edge is adapted to align with said second edge when said left cover panel end flap is moved into said erected position with respect to said left top cover end flap.

11. The blank of claim 9, wherein said right juncture has a third edge and said right top cover end flap has a fourth edge, and wherein said third edge is adapted to align with said fourth edge when said right cover panel end flap is moved into said erected position with respect to said left top cover end flap.

12. The blank of claim 9, wherein said left juncture has a paperboard thickness of one unit and said left cover panel end flap has a paperboard thickness of one unit, and wherein said left juncture and said left cover panel end flap are adapted to form a thickness of two units when said blank is assembled to form said carton.

13. The blank of claim 9, wherein said right juncture has a paperboard thickness of one unit and said right cover panel end flap has a paperboard thickness of one unit, and wherein said right juncture and said right cover panel end flap are adapted to form a thickness of two units when said blank is assembled to form said carton.

14. The blank of claim 9, wherein said top cover is hingedly interconnected with a rear panel, said rear panel having left and right rear panel end flaps hingedly connected thereto, a bottom panel hingedly connected to said rear panel and having right and left bottom panel end flaps hingedly connected thereto, a bottom panel hingedly connected to said rear panel and having right and left bottom panel end flaps hingedly connected thereto and a front panel hingedly connected to said bottom panel and having left and right bottom panel end flaps hingedly connected thereto.

15. The blank of claim 14, wherein said left juncture has a paperboard thickness of one unit and said left cover panel end flap has a paperboard thickness of one unit, and wherein said left juncture and said left cover panel end flap are adapted to form a thickness of two units when said blank is assembled to form said carton.

16. The blank of claim 15, wherein said right juncture has a paperboard thickness of one unit and said right cover panel end flap has a paperboard thickness of one unit, and wherein said right juncture and said right cover panel end flap are adapted to form a thickness of two units when said blank is assembled to form said carton.

17. The blank of claim 16, wherein said left juncture has a first edge and said left top cover end flap has a second edge, and wherein said first edge is adapted to align with said second edge when said left cover panel end flap is moved into said erected position with respect to said left top cover end flap.

18. The blank of claim 17, wherein said left juncture has a first edge and said left top cover end flap has a second edge, and wherein said first edge is adapted to align with said second edge when said left cover panel end flap is moved into said erected position with respect to said left top cover end flap.

19. A foldable sleeve for assembly a carton, said sleeve comprising:a cover panel having left and right cover panel end flaps hingedly connected therewith, an in-folding flap hingedly connected with said cover panel, a left juncture further connecting said in-folding flap to said left cover panel end flap, a right juncture further connecting said in-folding flap to said right cover panel end flap, said in-folding flap and said left and right junctures being folded over said cover panel and said left and right cover panel end flaps respectively, said in-folding flap being adhesively connected in abutting relation to said cover panel.

20. The foldable sleeve of claim 19 wherein said cover panel is hingedly connected with a top panel, said top panel having left and right top panel end flaps hingedly connected thereto, a rear panel hingedly connected to said top panel and having left and right rear panel end flaps hingedly connected thereto, a bottom panel hingedly connected with said rear panel and having left and right bottom panel end flaps hingedly connected thereto, and a front panel hingedly connected to said bottom panel and having left and right front panel end flaps hingedly connected thereto, said in-folding flap being adhesively adhered to a marginal free edge portion of said front panel, said sleeve being disposed in a flattened condition with said front panel being folded along the hinged connection with said bottom panel into abutting relation thereto and with said rear panel being folded along the hinged connection with said top cover into abutting relation therewith.