Carton, carton blank and method for forming the carton

A carton blank and a leakproof carton formed therefrom which carton has an outer enclosure formed from a relatively rigid material and having an openable top portion and a closed bottom portion and a leakproof inner liner having a central body portion secured to an opposed central body of the outer enclosure, a closed bottom and an openable closed top so that after portions of the material in the carton have been removed the top portion and adjacent portions of the inner liner's central body may be separated from the central body of the outer enclosure and folded downwardly to protect the remaining material in the carton. In one embodiment, after all the material has been removed from the carton, the leakproof inner liner may be completely removed from the outer enclosure.

FIELD OF THE INVENTION 
This invention is directed generally to carton blanks and apparatus and 
method for forming the carton blanks and more particularly to apparatus 
and method for forming carton blanks that can be used to form leakproof 
cartons having reclosable inner portions to form an effective seal after 
the leakproof carton has been opened. 
BACKGROUND OF THE INVENTION 
There are many supposedly leakproof cartons on the market today. These are 
formed using a variety of methods. Some of the cartons are designed to 
hold granular materials while others are designed to hold liquid 
materials. While some of these leakproof cartons have been successful, 
there is always a need for improvement including the formation of the top 
inner portion. 
BRIEF DESCRIPTION OF THE INVENTION 
This invention provides a carton blank and a leakproof carton formed 
therefrom wherein, after the leakproof carton has been opened, a top body 
portion and successive incremental portions of a central body portion of a 
relatively flexible fluid impervious material may be folded downwardly 
into the leakproof carton as portions of the material are removed from the 
leakproof carton to protect the remaining portions of the material in the 
carton and wherein, after all the material has been removed, the 
relatively flexible fluid impervious material may be removed. 
In a preferred embodiment of the invention, the carton blank comprises a 
unitary sheet of a relatively rigid material having an inner surface and 
an outer surface, a left side edge, a right side edge, a top edge and a 
bottom edge. The unitary sheet of a relatively rigid material has a length 
extending from the top edge to the bottom edge and width extending from 
the left side edge of the right side edge. The unitary sheet of a 
relatively rigid material has a plurality of cut and fold lines for 
dividing the unitary sheet of a relatively rigid material into a back 
panel, a front panel, opposite sidewall panels, a glue tab panel and top 
and bottom panels extending outwardly in opposite directions from the 
front, back and opposite sidewall panels. The glue tab panel has a top 
edge and a bottom edge and a perforated line extending from the top edge 
toward the bottom edge and in some instances completely to the bottom 
edge. The inner surface defined by the front panel, the back panel, the 
opposite sidewall panels and the glue tab panel has a central body 
portion, a top body portion and a bottom body portion with the central 
body portion located between and spaced from the fold lines between the 
front panel, the back panel and the opposite sidewall panels and the top 
and bottom panels and extending into the glue tab panel. A generally 
rectangular sheet of a relatively flexible fluid impervious material is 
provided and has an inner surface and an outer surface, a central body 
portion, a top body portion, a bottom body portion, a left side edge, a 
right side edge and top and bottom edges. The generally rectangular sheet 
of a relatively flexible fluid impervious material has a length and a 
width which corresponds to the length and the width of the unitary sheet 
of a relatively rigid material. The central body portion of the 
rectangular sheet of a relatively flexible fluid sheet of a relatively 
flexible fluid impervious material is secured to the central body portion 
of the front panel, the back panel, the opposite sidewall panels and the 
glue tab panel. At least portions of the central body portion of the 
generally rectangular sheet of a relatively flexible fluid impervious 
material are secured by an adhesive permitting separation thereof from 
adjacent portions of the central body portion of the front panel, the back 
panel, the opposite sidewall panels and the glue tab panel without damage 
thereto by the application of sufficient force which portions extend 
downwardly from the top of the central body portion toward the bottom body 
portion thereof and, in some instances, to the bottom body portion. At 
least portions of the top and bottom body portions of the generally 
rectangular sheet of a relatively flexible fluid impervious material 
overlie but are not secured to the top and bottom body portions of the 
front panel, the back panel, the opposite sidewall panels and the top and 
bottom panels. Preferably, a sheet of a relatively flexible material is 
secured to the top and bottom body portions of the generally rectangular 
sheet of a relatively flexible fluid impervious material. 
The portion of the glue tab panel between the perforated line and one of 
the left or right side edges is secured to the central body portion of the 
generally rectangular sheet of a relatively flexible fluid impervious 
material with an adhesive so that the portion moves with the at least 
portions of the central body portion of the rectangular sheet of a 
relatively flexible fluid impervious material as the at least portions are 
being separated from the central body portion of the front panel, the back 
panel, the opposite sidewall panels and the adjacent portion of the glue 
tab panel. 
During the formation of the above-described carton blank into an open ended 
enclosure, a portion of the outer surface of the glue tab panel is skived 
away and a fold line extending form the top edge to the bottom edge of the 
glue tab panel is formed therein. The remaining portion has a thickness 
equal to about one-half of its original thickness. 
A portion of the central body portion of the generally rectangular sheet of 
a relatively flexible fluid impervious material adjacent to one of the 
left or right side edge thereof is removed leaving a portion of the inner 
surface of the central body portion of the unitary sheet of a relatively 
rigid material exposed. 
The open ended enclosure is formed by first folding on of the opposite 
sidewall panels and the glue tab panel around the foldline between the one 
of the opposite sidewall panels and the front or back panel. During this 
folding operation, the skived away portion around the fold line therein is 
form a continuous exposed strip of the relatively flexible fluid 
impervious material extending from the top edge to the bottom edge of the 
generally rectangular sheet. During the folding operations, a suitable 
adhesive is applied to the appropriate portions of the carton blank so 
that in the formed open ended enclosure the exposed portion of the inner 
surface of the central body portion of the unitary sheet of a relatively 
rigid material is secured to the non-skived portion of the glue tab panel, 
including the perforated line and the continuous strip of the relatively 
flexible fluid impervious material is secured to a superposed portion of 
the relatively flexible fluid impervious material that the open ended 
enclosure has a continuous inner surface. 
In forming and filling a carton from the open ended enclosure, the bottom 
body portion of the generally rectangular sheet of a relatively flexible 
fluid impervious material is folded and secured together and the bottom 
panel portions are folded and secured together to form a bottom closed end 
so that the carton can be filled with a desired material. After being 
filled, the top body portion of the generally rectangular sheet of a 
relatively flexible fluid impervious material is folded and secured 
together and the top panel portions are folded and secured together to 
form a closed top end. 
A method of forming an opened ended enclosure from the carton blank 
described above comprising folding the glue tab panel and one of the 
opposite sidewall panels and the portion of the generally rectangular 
sheet of a relatively flexible fluid impervious material secured thereto 
around a fold line between the one of the opposite sidewall panels and one 
of the front or back wall panels and forming extended fold lines in the 
top and bottom body portion of the generally rectangular sheet of a 
relatively flexible fluid impervious material; folding the at least 
portions of the glue tab panel located between the perforated line and the 
one of the left or right side edges and the other portions of the 
generally rectangular sheet of a relatively flexible fluid impervious 
secured thereto around the fold line in the glue tab panel and extending 
the fold line to include portions of the top and bottom body portions of 
the generally rectangular sheet of a relatively flexible fluid impervious 
material to form a continuous strip of the generally rectangular sheet of 
a relatively flexible fluid impervious material facing in the same 
direction as the outer surface of the remaining portion of the outer 
surface of the glue tab panel; folding the other of the front or back wall 
panels and the portion of the generally rectangular sheet of a relatively 
flexible fluid impervious material secured thereto around a fold line 
between the other of the front or back panels and the other of the 
opposite sidewall panels and forming extended fold lines in the top and 
bottom body portions of the generally rectangular sheet of a relatively 
flexible fluid impervious material and sealing together facing portions of 
the outer surface of the glue tab panel and the exposed inner surface of 
the other of the front or back panels and facing the continuous strip of a 
relatively flexible fluid impervious material and portions of the 
generally rectangular sheet of a relatively flexible fluid impervious 
material secured to the other of the front or back panels and the 
extensions thereof into the top and bottom body portions of the generally 
rectangular sheet of a relatively flexible fluid impervious material to 
form an open ended enclosure having a continuous inner surface formed from 
the generally rectangular sheet of a relatively flexible fluid impervious 
material. 
The method further comprises forming a carton from the open ended enclosure 
comprising sealing together portions of the bottom body portion of the 
generally rectangular sheet of a relatively flexible material and the 
bottom panels to formed a carton having an open top and closed bottom 
filling the enclosure with a desired material and sealing together 
portions of the top body portion of the generally rectangular sheet of a 
relatively flexible fluid impervious material and the top panels to form a 
closed top. 
The method further comprising opening the top panel portion and the 
portions of the top body portion of the generally rectangular sheet of a 
relatively flexible fluid impervious material removing some of the 
material form the carton; folding the top body portion and portions the 
central body portion of the generally rectangular sheet of a relatively 
flexible fluid impervious material to reclose the opening and severing the 
at least portions of the glue tab panel along the perforated line so that 
the portion of the glue tab panel may be folded with the central body 
portion of the generally rectangular sheet of a relatively flexible fluid 
impervious material. When all the material has been removed form the 
carton, the method further comprise separating the generally rectangular 
sheet of a relatively flexible material completely from the unitary sheet 
of a relatively rigid material. 
In another embodiment of the invention, the carton blank comprises a 
unitary sheet of a relatively rigid material having an inner surface and 
an outer surface and a left side edge, a right side edge, a tope edge and 
a bottom edge and a length extending from the top edge to the bottom edge 
and a width extending from the left side edge to the right side edge. The 
unitary sheet of a relatively rigid material has a plurality of cut and 
fold lines for dividing the unitary sheet of a relatively rigid material 
into a back wall panel, a front wall panel, opposite sidewall panels, a 
glue tab panel and top and bottom panels extending outwardly in opposite 
directions from the front wall, back wall and opposite sidewall panels. 
The glue tab panel has a top edge and a bottom edge. A generally 
rectangular sheet of a relatively flexible fluid impervious material has 
an inner surface and an outer surface, a central body portion, a top body 
portion a bottom body portion, a left side edge, a right side edge and top 
and bottom edges and a length and a width corresponding to the length and 
the width of the unitary sheet of a relatively rigid material. The central 
body portion of the rectangular sheet of a relatively flexible fluid 
impervious material is secured to opposed portions of the front wall 
panel, the back wall panel, the opposite sidewall panels and the glue tab 
panel. At least portions of the central body portion of the generally 
rectangular sheet of a relatively flexible fluid impervious material are 
secured to opposed portions of the front panel, the back panel, and the 
opposite sidewall panels by a relatively weak adhesive which functions to 
hold the opposed portions together but to permit separation thereof from 
the opposed portions of the front panel, the back panel, the opposite 
sidewall panels and portions of the glue tab panel without damage thereto 
when a sufficient force is applied thereto. 
A first portion comprising at least portions of the central body portion of 
the generally rectangular sheet of a relatively flexible fluid impervious 
material adjacent to one of the left and right side edges overlies but is 
not secured to at least portions of the unitary sheet of a relatively 
rigid material adjacent to one of the left and right side edges. In one 
preferred embodiment of the invention, a sheet of a relatively flexible 
material is secured to each of top and bottom body portions of the 
generally rectangular sheet of a relative flexible fluid impervious 
material. 
An open ended enclosure is formed from the above described carton blank 
wherein a second portion of the carton blank comprising at least portions 
of the carton blank adjacent to the other of the left and right side edges 
is inserted between the non-secured portions of the first portion. At 
least portions of the relatively flexible fluid impervious material of the 
first portion are secured to at least portions of the relatively flexible 
fluid impervious material of the second portion by a relatively permanent 
adhesive and at least portions of the relatively rigid material of the 
first portion are secured to at least portions of the relatively rigid 
material of said second portion by a relatively permanent adhesive. 
A carton is formed from the above-described open ended enclosure wherein 
the bottom body portion of the generally rectangular sheet of a relatively 
flexible fluid impervious material is folded and secured together and the 
bottom panel portions are folded and secured together to form a bottom 
closed end so that the carton can be filled with a desired material. 
Thereafter, the top body portion of the generally rectangular sheet of a 
relatively flexible fluid impervious material is folded and secured 
together and the top panel portions are folded and secured together to 
form a closed top end. 
A method for forming an open ended enclosure from the above-described 
carton blank comprises folding the carton blank around the fold lines 
between the front and back panels, the opposite sidewall panels and the 
glue tab panel; inserting a second portion of the carton blank comprising 
at least portions of the carton blank adjacent to the other of the left 
and right side edges between the non-secured portions of the first 
portion; securing at least portions of the relatively flexible fluid 
impervious material of the first portion to at least portions of the 
relatively fluid impervious material of said second portion using a 
relatively permanent adhesive; and securing at least portions of the 
relatively rigid material of the first portion to at least portions of the 
relatively rigid material of the second portion using a relatively 
permanent adhesive. 
The method further comprises forming a carton from the open ended enclosure 
by folding and sealing together portions of the bottom body portion of the 
generally rectangular sheet of a relatively flexible fluid impervious 
material; folding and securing together the bottom panel portions to form 
an open top carton having a bottom closed end; filling the open top end 
carton with a desired material; folding and securing together portions of 
the top body portion of the generally rectangular sheet of a relatively 
flexible fluid impervious material; and folding and securing together 
portions of the top panel portions.

DETAILED DESCRIPTION OF THE INVENTION 
A carton blank is illustrated in FIGS. 1-4 The carton blank 402 has an 
outer layer comprising a unitary sheet 404 of a relatively rigid material 
and an inner layer of a generally rectangular sheet 406 of a relatively 
flexible fluid impervious material. 
As illustrated in FIG. 1 the unitary sheet 404 has a top edge 408, a bottom 
edge 410, a left side edge 412 and a right side edge 414. The unitary 
sheet 404 has a plurality of fold lines 416 and cut lines 418 to divided 
the unitary sheet into a glue tab panel 420, apposite sidewall panels 422 
(only one of which is shown), a back panel 424, a front panel 426 (it is 
understood that these reference numerals could be reversed), a plurality 
of top panels 428 and a plurality of bottom panels 430. A perforated line 
432 is formed in the glue tab panel 420 for purposes described below. The 
perforated line 432 is illustrated as terminating between the top edge 434 
and the bottom edge 436 of the glue tab panel 420 but could extend 
completely to the bottom edge 436 for purposes described below. 
As illustrated in FIG. 2, the generally rectangular sheet 406 has a central 
body portion 440 that is secured to the underlying central body portion of 
the unitary sheet 404 between the line 442 located slightly below the fold 
line 416 between the top panels 428, the sidewall panel 422 and the front 
and back panels 424 and 426 and the line 444 located slightly above the 
fold line 416 between the bottom panels 430 and the sidewall panel 422 and 
the front and back panels 424 and 426. The generally rectangular sheet 406 
has a top body portion 450 and a bottom body portion 452. The unitary 
sheet 404 has corresponding underlying top and bottom body portions. 
Strips of a relatively flexible material 446 and 448 are secured to the 
top body portion 450 and the bottom body portion 452 of the generally 
rectangular sheet 406. During the manufacture of the carton blank 402, a 
portion 454 of the central body portion 440 is removed for purposes 
described below. This portion 454 is preferably removed by not adhering it 
to the unitary sheet 404 and then passing it over heating means. It is 
understood that other methods can be used to form the portion 454. Also, 
during the folding and gluing operation, a portion 456 of the glue tab 
panel 420, located between the perforated line 432 and the left side edge 
412 and extending from the top edge 434 and the bottom edge 436, is skived 
away and a fold line 458 is formed therein for purposes described below. 
Preferably, the portion 456 is spaced a short distance from the perforated 
line 432. The generally rectangular sheet 406 has a top edge 460 a bottom 
edge 462, a left side edge 464 and a right side edge 466. 
In FIG. 3, there is illustrated the formation of an open ended enclosure 
from the carton blank 402. The glue tab panel 420 and the sidewall panel 
422 have been folded around the fold line 416 between the sidewall panel 
422 and the back panel 424. The portion of the generally rectangular sheet 
406 and the top and bottom wall panels 428 and 430 integral with the 
sidewall panel 422 move therewith. The skived portion 456 is folded around 
the fold line 458 to form an exposed continuous strip 470 of the 
relatively flexible fluid impervious material. The front panel 426 is 
folded around the fold line between it and another sidewall panel (not 
shown) until the portion 454 overlies the portion 472 of the glue tab 
panel 420 and a strip 474, illustrated by the dashed lines 476 in FIG. 2, 
of the relatively flexible fluid impervious material overlies the 
continuous strip 470. The portions 454 and 472 are secured together, 
preferably by a relatively good adhesive bond, to hold the unitary sheet 
404 of a relatively rigid material in a desired relationship. The strips 
474 and 470 are secured together, preferably by a relatively good adhesive 
bond, to form a continuous inner enclosure with open ends of the generally 
rectangular sheet 406 of a relatively flexible fluid impervious material 
secured to the unitary sheet of a relatively rigid material. 
When it is desired to form and fill a carton 480, the opposite sidewall 
panels 422 and the front and back wall panels 426 and 424 are formed into 
an open ended hollow rectangular shape. The adjacent portions of the 
bottom body portion 452 are folded and sealed together and the bottom 
panels 430 are folded and sealed together. The partially formed carton is 
then filled with a desired material. The adjacent portions of the top body 
portion 450 are folded and sealed together, such as illustrated in FIGS. 3 
and 4, and folded down and the top panels 428 are folded and sealed 
together to form a filled carton. 
When it is desired to remove material from the carton 480, the top panels 
428, which have been secured together by a relatively weak adhesive bond 
are opened and then the adjacent portions of the top body portion 450, 
which also have been secured together by a relatively weak adhesive bond, 
are separated and the desired amount of material is removed. The adjacent 
portions of the top body portion 450 are then folded down into the carton 
and the top panels 428 are folded and held together by a conventional 
joint. 
In FIG. 4, there is illustrated the operation of the folding of the top 
body portion 450 into the carton 480. The central body portion 440 of the 
generally rectangular sheet 406 is secured to the central body portion of 
the unitary sheet 404 so that as the top and central body portions 450 and 
440 are folded down into the carton 480, the continuous strip 470 and the 
folded together skived portion 456 will separate along the perforated line 
432 and move with the central body portion 440. If desired, the perforated 
line 432 can extend from the top edge 434 to the body edge 436, so that, 
when all the material is removed from the carton 480, the generally 
rectangular sheet 406 may be completely separated from the unitary sheet 
404 for separate disposal. 
In FIGS. 5-10, there are described other preferred embodiments of the 
invention which are described using slightly different terminology. 
In FIG. 5, there is disclosed a carton blank 502 comprising a unitary sheet 
504 of a relatively rigid material having a plurality of fold lines 506, 
508, 510 and cut lines 512 to divide the carton blank 502 into a back wall 
panel 514, sidewall panels 516, a front wall panel 518, a glue tab panel 
520, top panels 522 and bottom panels 524. It is understood that the 
foregoing terminology is for description purposes only and the location 
and terminology of the various portions may be changed as desired. 
A generally rectangular sheet 530 of a relatively flexible fluid impervious 
material has a central body portion 532 extending between the dashed lines 
534 and 536 of FIG. 1, a top body portion 538 and a bottom body portion 
540. A strip 542 of a relatively flexible material is secured to the top 
body portion 538 and a strip 544 of a relatively flexible material is 
secured to the bottom body portion 540. Portions of the central body 
portion 532 between the dashed lines 534 and 536 and 546 are secured to 
portions of the opposed portions of the front and back panels 518 and 514, 
the sidewall panels 516 and the glue tab panel 520 by an adhesive to hold 
the opposed portions together but to permit separation thereof for 
purposes described below. Portions of the unitary sheet 504 of a 
relatively rigid material and the generally rectangular sheet 530 of a 
relatively flexible fluid material have a common left side edge 548, a 
right side edge 550, a top edge 552 and a bottom edge 554. 
As illustrated in FIG. 8, a first portion 560 of the carton blank 502 
comprises at least a portion 562 of the rectangular sheet 530 of a 
relatively flexible fluid impervious material between the left side edge 
548 and the dashed line 546 overlying at least a portion 564 of the back 
panel 514 between the left side edge 548 and the dashed line 546. The at 
least a portion 562 and the at least a portion 564 are not secured 
together for purposes described below. 
In FIG. 7, there is illustrated another embodiment of the invention which 
embodiment is similar to that of FIG. 6 and corresponding parts have been 
identified with the same reference numerals. The strips 542 and 544 are 
not used in the embodiment of FIG. 7. 
The unitary sheet 504 of a relatively rigid material is preferably formed 
from a conventional paperboard material or the composite material 
described in U.S. Pat. No. 4,254,173 to Peer, Jr., or other materials 
having similar characteristics. The generally rectangular sheet 530 of a 
relatively flexible fluid impervious material illustrated in FIG. 6 is 
preferably formed from a sheet of plastic material such as polypropylene 
or other materials having similar characteristics. The strips 542 and 544 
preferably are formed from a conventional Kraft or recycled paper. The 
generally rectangular sheet 530 of a relatively flexible fluid impervious 
material in FIG. 7 can be the same as that in FIG. 6 or could be a kraft 
or recycled paper coated with a plastic material such as polyethylene or 
other materials having similar characteristics or a Kraft or recycled 
paper secured to a plastic material such as polyethylene or other 
materials having similar characteristics. 
In FIG. 9, there is illustrated portions of the carton blank 502 in a 
partially folded condition to form an open ended enclosure. The glue tab 
panel 520 is being inserted between the at least a portion 562 and the at 
least a portion 564. In FIG. 10, there is illustrated one corner portion 
of a carton formed from the carton blank 502, wherein the at least a 
portion 562 has been secured with a relatively permanent adhesive to a 
portion 566 of the relatively flexible fluid impervious material 530 
secured to the glue tab panel 520 and the at least a portion 564 has been 
secured with a relatively permanent adhesive to a portion 568 of the 
relatively rigid material 504. Also, the glue tab panel 520 and the 
sidewall panel 516 have been folded around the fold line 506. 
An open ended enclosure is formed from the carton blank 502 by folding it 
around at least some of the fold lines 506 and inserting the glue tab 
panel 520 between the at least a portion 562 and the at least a portion 
564. A relatively permanent adhesive is used to secure the at least a 
portion 562 to the portion 566 of the glue tab panel 520 and the at least 
a portion 564 to the portion 568 of the glue tab panel 520. 
When it is desired to use the open ended enclosure, the carton blank 502 is 
folded around the fold lines 506 to form a rectangular opening. The bottom 
portion 540 is then folded and secured together in a conventional process. 
The bottom panels 524 are then folded and secured together in a 
conventional process to provide a carton having an open top end which 
carton is then filled with the desired material. After being filled, the 
top body portion 538 is folded and sealed together in a conventional 
process. The top panels 522 are then folded and sealed together in a 
conventional process. 
The operation of the invention illustrated in FIGS. 5-10 is similar to that 
illustrated in FIG. 4. When it is desired to remove some of the material 
from the carton, the top panels 522 and the top body portion 538 are 
opened and the desired amount of the material is removed. The top body 
portion 538 is then folded and rolled downwardly toward the central body 
portion 532. As this motion is continued, the adhesive allows the central 
body portion 532 to be separated from the front and back panels 518 and 
514 and the sidewall panels 516. This preserves the integrity of the 
relatively flexible fluid impervious material to provide the desired 
protection for the material remaining in the carton. When all the material 
has been removed from the carton, the generally rectangular sheet 530 of a 
relatively flexible fluid impervious material may be completely separated 
from the unitary sheet 504 of a relatively rigid material for separate 
disposal. 
It is contemplated that the inventive concepts herein described may be 
variously otherwise embodied and it is intended that the appended claims 
be construed to include alternative embodiments of the invention except 
insofar as limited by the prior art.