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Description  |
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BACKGROUND OF THE INVENTION
This invention relates generally to rolled paper products, such as paper
toweling, and more specifically to a cover structure around a roll of
paper suitable for dispensing sheets of the paper.
It is desirable in certain situations to have paper rolled products, such
as paper toweling or toilet paper, portable and available for convenient
dispensing. For example, persons needing to take paper towels with them in
an automobile would have use for a portable cover for the paper towel
which prevented it from unraveling, yet allowed for convenient dispensing
of paper towel sheets. Another example arises with campers' need to bring
paper products, such as toilet paper, along with them on a camping trip.
It is desirable to have such toweling wrapped in a waterproof or water
repellent container, while allowing convenient dispensing thereof. It is
preferable to have such container being flexible in order that it may more
resiliently withstand the jostles, compaction and general abuse that can
be associated with items packed for trips. Furthermore, in certain
applications, it is preferable, although not mandatory, that such
dispensing cover be provided as inexpensively as possible and without
excessive capital investment on the part of roll paper manufacturers.
Several cover products and covering processes have been developed in
conjunction with the roll paper products. U.S. Pat. No. 1,255,772 to
Miller and U.S. Pat. No. 1,523,297 to Savery each disclose rigid casing
containers for dispensing paper towels from a longitudinal slot in the
casing. Both of these devices feature detergent container/dispensers
disposed centrally in the core of the roll paper. While providing the
advantage of a portable towel dispenser, these products are generally
rigid in construction and consequently do not offer the soft
compressibility useful in packing of the present invention. U.S. Pat. No.
1,905,561 to Gluck discloses a box for dispensing rolled products, such as
wax paper, including a cutting edge for separating sheets of the wax
paper. Such box is typically made of cardboard and is relatively stiff.
The serrations are useful for cutting paper products which, unlike paper
towels and toilet paper, do not have pre-cut sheet sections. U.S. Pat. No.
4,101,026 to Bonk discloses a pre-moistened towelette dispenser. An outer
housing holds an inner liner for moisture containment. U.S. Pat. No.
3,319,870 to Haider discloses a protective sheath for rolled sheet
material and a process of manufacture thereof. U.S. Pat. No. 4,312,384 to
Becker discloses a support sheath of formable material used in the
production of sausages.
It is well-known that paper towels are offered by many manufacturers
wrapped in clear plastic flexible sheets which are heat fused at the top
and bottom ends and along a longitudinal seam. A product registered under
the trademark Designer "Bounty", offered by the Procter and Gamble Company
of Cincinnati, OH, is one such product and further includes
circumferential perforations in the sheet plastic cover about one inch
below the top end of the roll. Such perforations aid the user in
destructively tearing off the plastic cover from the roll of "Bounty"
brand paper. Another product is the Kleenex.RTM. brand Pocket Pack tissues
offered by the Kimberley-Clark Corporation of Neena, Wisconsin. This
pocket pack is a rectangular package of 15 two-ply facial tissues in which
a series of perforations are scored on one face of the rectangular
package, with such perforations terminating about one inch from each edge
of such face. Individual stacked tissues are removed from the top of the
stack through the opening formed when the user tears open the
perforations.
Finally, a product marketed as Ruffies.RTM. trash & grass bags by
Poly-Tech, Inc., of Minneapolis, Minnesota, includes packaging for
dispensing trash and grass bags. Such package includes a partially clear
plastic bag having one end that is not heat sealed in which a coreless
roll of trash bags is disposed. The end of the container bag that is not
heat sealed is cinched closed by a tape wrapped around the container bag.
The container bag includes an oblong, oval-shaped tab defined by
perforations scored in the container bag. Upon removal of the tab, the
trash bags contained in the container bag may be dispensed through the
dispenser opening formed by removal of the oval tab. The dispenser opening
is about one and a half inches shorter than the width of the rolled trash
bags to be dispensed.
While the various devices each address certain problems, none of them
provide all the advantages of the present invention. In one embodiment,
the present invention is created by scoring a series of perforations
longitudinally in a plastic paper towel roll cover generally parallel with
the longitudinal core axis of the roll. Such improvement allows for
convenient dispensing from the plastic cover without destructive removal
of the cover presently experienced by use of the circumferential
perforations. Furthermore, this advantage may be realized without major
modification to existing manufacturing techniques used in packaging paper
towel and/or toilet paper products, providing an improved product without
undue expense.
Furthermore, an alternative embodiment of the present invention is a
reusable cover having greater durability than conventionally wrapped paper
towel cover plastics. However, such device would still preferably be
flexible, facilitating its use in "soft luggage" which is popular for
travel.
SUMMARY OF THE INVENTION
According to one embodiment, the present invention provides a packaging
process comprising the steps of scoring a series of perforations along a
first longitudinal direction in a sheet of flexible plastic having a less
than and about 0.05 of an inch; wrapping the sheet of plastic around a
roll of absorbent paper, the roll having a core therein and with a top end
and a bottom end, wherein the series of perforations is generally parallel
to the core of the roll of paper, and wherein the series of perforations
is adapted to be torn to define a longitudinal dispensing opening for
dispensing sheets of paper from the roll; heat sealing a first portion of
the sheet of plastic around the top end of the roll of paper; and heat
sealing a second portion of the sheet of plastic around the bottom end of
the roll of paper.
According to another embodiment, the present invention also provides a
paper roll cover for rolled paper products, comprising: a roll of dry
absorbent paper towels having a longitudinal core, the roll having a top
end and a bottom end; and a flexible plastic cover wrapped around the roll
and heat sealed over the top end and the bottom end; and a longitudinal
series of perforations in the cover extending the length of the roll from
the top end to the bottom end, wherein the series of perforations is
adapted to be torn to define a longitudinal dispensing opening for
dispensing sheets of paper from the roll.
The present invention also provides a holder for a roll of absorbent paper
with a longitudinal core comprising a tubular portion made of flexible
plastic, the tubular portion having a longitudinal slit means for defining
a dispensing opening in the tubular portion; a flexible plastic flap
covering the opening, the flap being integrally formed from the tubular
portion; a top portion made of flexible plastic and integrally formed with
the tubular portion; and a bottom portion made of flexible plastic and
integrally formed with the tubular portion, wherein the top portion and
the tubular portion and the bottom portion collectively provide a cover
for the roll of paper.
An object of the present invention is to provide an improved paper roll
cover.
Another object of the present invention is to provide an improved process
for packaging paper roll products.
Another object of the present invention is to provide a paper roll cover
which is portable and convenient for dispensing sheets of paper.
Another object of the present invention is to provide a paper roll
dispenser which is flexible and compressible for packing.
Related objects of the present invention are disclosed in the following
description of the preferred embodiments.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side elevational view of a first preferred embodiment of the
paper roll cover of the present invention.
FIG. 2 is a top plan view of the paper roll cover of FIG. 1 taken along
line 2--2 in FIG. 1.
FIG. 3 is a perspective view of a the paper roll cover of FIG. 1 in which
the cover has been opened for dispensing the paper product.
FIG. 4 is a partial cutaway top sectional detail view of the paper roll
cover of FIG. 1 taken along line 4--4 in FIG. 3.
FIG. 5 is a partial cutaway top sectional detail view of a second preferred
embodiment of the paper roll cover of the present invention taken from a
view identical to the view of FIG. 4.
FIG. 6 is a perspective diagrammatic view of a first preferred process for
manufacturing a paper roll cover of the present invention.
FIG. 7 is a perspective diagrammatic view of a second preferred process for
making a paper roll cover of the present invention.
FIG. 8 is a side view of a third preferred embodiment of the paper roll
cover of the present invention.
FIG. 9 is an end full section view of the paper roll cover of FIG. 8 taken
along line 9--9 of FIG. 8.
FIG. 10 is an end view of the paper roll cover of FIG. 8 showing paper
product being dispensed from a new roll of paper.
FIG. 11 is an end view of the paper roll cover of FIG. 8 showing a paper
product being dispensed from a partially used roll of paper.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
For the purposes of promoting an understanding of the principles of the
invention, reference will now be made to the embodiments and processes
illustrated in the drawings and specific language will be used to describe
the same. It will nevertheless be understood that no limitation of the
scope of the invention is thereby intended, such alterations and further
modifications in the illustrated devices and processes, and such further
applications of the principles of the invention as illustrated therein
being contemplated as would normally occur to one skilled in the art to
which the invention relates.
Referring now to FIGS. 1-4, wrapped paper roll 21 includes a conventional
paper roll 23 and clear plastic outer cover 25. Geometrically, paper roll
23 has a cylindrical side 27 (half of which is shown in FIG. 1), top end
29 (shown in FIG. 2), and bottom end 31, which is substantially identical
to top end 29 in appearance. Paper roll 23 has a conventional central
longitudinal core 33, typically made of cardboard or other suitable
material. Core 33 defines a longitudinal axis in the center thereof which
acts as the axis of rotation when sheets of paper are removed from paper
roll 23. Paper roll 23 has an end sheet of paper 35, which has a leading
edge 37. As is known, end sheet 35 is the outermost sheet of paper on roll
23 and accordingly is the first to be removed from roll 23. Clear plastic
outer cover 25 is conventionally heat fused around top end 29 and bottom
end 31 as well as being heat fused at longitudinal seam 39 (see FIG. 2) as
is known. Seam 39 is formed by heat fusing a first free end of sheet
plastic to a second free end of the same sheet of plastic to form a
cylinder wrapped around the roll of paper (see FIG. 6, roll D.sub.6 ; FIG.
7, roll E.sub.7). FIGS. 2 and 3 illustrate tucks and creases in the
plastic cover 25 on the top end 29 of the wrapped paper roll 21. In the
present invention, it is preferable that the rolled layers 41 of paper
making up paper roll 23 be relatively tightly wound with respect to each
other and with respect to core 33. Furthermore, it is preferable that
clear plastic outer cover 25 be relatively loosely wrapped around paper
roll 23 in the present invention.
In the preferred embodiment of the present invention, clear plastic outer
cover 25 has a longitudinal series of perforations 43 cut in the
cylindrical side 27 of clear plastic outer cover 25. This series of
perforations 43 (see FIG. 1) is generally parallel to the longitudinal
axis defined by core 33. Preferably, the series of perforations 43 is
generally linear and extends a series length about equal to or slightly
greater than the width of end sheet 35 of paper roll 23. It is possible,
although not necessary, to the present invention to include a top
perforation segment 45 and a bottom perforation segment 47 (see FIG. 1).
This pair of perforation segments 45 and 47 each intersect with
longitudinal series of perforations 43 near the top end and bottom end of
perforation series 43 respectively. These perforation segments intersect
generally perpendicular to the longitudinal perforations and are generally
circumferentially oriented with respect thereto inasmuch as they extend
around the circular top and bottom profiles of the wrapped paper roll 21.
These perforations 43, 45 and 47 provide a means for the user to tear the
clear plastic outer cover 25 open along perforations 43, 45 and 47 in
predetermined and defined locations. After outer cover 25 has been torn
open along perforation 43, perforation 45, and perforation 47, wrapped
paper roll 21 may be dispensed through the longitudinal dispensing opening
51 in outer cover 25 thus created as illustrated in FIGS. 3 and 4. What
was formerly a series of perforations 43, 45 and 47 becomes a longitudinal
slit 49 in outer cover 25, defining dispensing opening 51. Series of
perforations 43 is adapted to be torn to define longitudinal dispensing
opening 51 for dispensing sheets of paper, such as sheet 35, from roll 21.
Flap 53 is integrally formed with side 27 of outer cover 25, and at least
partially covers dispensing opening 51 when it is allowed to lay closed
over the opening. As illustrated in FIGS. 3 and 4, end sheet 35 is
dispensed from dispensing opening 51 by pulling it outwardly in a
direction depicted by arrow "R" (see FIG. 3). In this way, sheets of
rolled paper may be dispensed from clear plastic outer cover 25 while
leaving the cover generally intact. Accordingly, the paper roll is
maintained with an outer cover which both keeps the paper from unraveling
and provides significant protection for the paper from the environment.
Referring to FIG. 5, there is shown an alternative preferred embodiment of
the present invention. FIG. 5 shows an end view of paper roll 21
essentially identical to FIG. 4. The only difference between the outer
cover 25 of FIG. 5 and FIGS. 1-4 is that the outer cover 25 of FIG. 5 does
not include top perforation segment 45 or bottom perforation segment 47.
Accordingly, since longitudinal series of perforations 43 provides the
only perforations for defining the dispensing opening 551 of FIG. 5, there
is no flexible plastic flap 53 formed as outer cover 25 is torn open along
the series of perforations 43, as illustrated in FIGS. 3 and 4. Instead,
dispensing opening 51 is a slit formed where previous series of
perforations 43 have been torn. Thus, opening 551 is somewhat narrower
than opening 51.
Preferably the plastic of outer cover 25 includes at least some clear
plastic. However, opaque or translucent portions of plastic may be
provided for printing the name, trademarks and decorative packaging. It is
preferable to provide at least some clear plastic to facilitate the user's
alignment of leading edge 37 with the dispensing opening. This need arises
because in packaging, the longitudinal series of perforations 43 is not
necessarily aligned with leading edge 37, requiring the user to rotate the
paper roll within the plastic outer cover until alignment with the
dispensing opening is achieved. Also, in the interest of material and cost
savings, the plastic making up clear plastic outer cover 25 is typically
very thin, being less than 0.05 inches in thickness which is typical of
conventional shrink-wrap type plastics utilized in packaging paper
toweling.
Referring now to FIG. 6, one process for manufacturing the wrapped paper
rolls of FIGS. 1-5 is illustrated. Various stages along the process are
illustrated by various rolls of paper with their associated covering,
A.sub.6, B.sub.6, C.sub.6, D.sub.6, E.sub.6, F.sub.6, G.sub.6, H.sub.6,
I.sub.6, J.sub.6 and K.sub.6, in sequential order of process. A roll of at
least partially clear plastic cover material 665 is unrolled dynamically
to form a continuously formed tube 667 in which rolls of paper toweling
(such as A.sub.6, B.sub.6 and C.sub.6) are fed. Heater element 669
conventionally heat seals the plastic cover material along a longitudinal
seam, such as longitudinal seam 39 illustrated in FIG. 2. Conventional
cutting device 671 cuts tube 667 into discreet tubes of plastic cover
material as illustrated with roll F.sub.6. The tubular length of the clear
plastic material is longer than the tubular length of the roll of paper,
providing overlap at each of the top end and bottom end of the roll of
paper. Cutting device 671 may be any number of conventional types of
cutters, such as one using an electrical current heated wire to cut tube
667.
Next, a roll, such as roll F.sub.6, is run through conventional tucking
toggles 673 and 675 to tuck the overlapping portions of the plastic wrap
around the top and bottom ends of the paper roll. Next, the tucked,
wrapped paper roll is run through conventional heating elements 677 and
679 to heat seal the plastic wrap around the top end of the roll of paper
and around the bottom end of the roll of paper (such as rolls H.sub.6 and
I.sub.6).
Next, a longitudinal perforator, such as perforator 681, scores
perforations into the plastic wrap, such as the longitudinal series of
perforations 43 shown in FIG. 1. These perforations may be scored in any
number of ways, but one preferred way is the use of a cutting wheel 683
which acts somewhat like a textile tracing wheel, longitudinally
traversing wrapped paper roll, such as roll J.sub.6. Optionally, a
transverse perforator 685 similar to perforator 681 may also be provided
to score transverse perforation segments, such as perforation segments 45
and 47 illustrated in FIG. 1.
These perforation steps may occur at a variety of points along the
manufacturing process, but are preferably done after the paper roll is
completely heat sealed and wrapped both on a longitudinal seam and at the
top and bottom ends of the paper roll. Other means for scoring
perforations may be employed, including using reciprocating punch dies, or
having the roll of cover material plastic 65 pre-perforated at appropriate
increments along its length.
Referring now to FIG. 7, an alternative preferred process for manufacturing
the wrapped paper rolls of FIGS. 1-5 is illustrated. Although having steps
in common with the process illustrated in FIG. 6, FIG. 7 is primarily
distinct from the process illustrated in FIG. 6 in that it utilizes
discreet sheets of plastic for wrapping cover material, as opposed to the
dynamic tube forming process of FIG. 6. FIG. 7 illustrates in series rolls
A.sub.7, B.sub.7, C.sub.7, D.sub.7, E.sub.7, F.sub.7, G.sub.7, H.sub.7 and
I.sub.7 in progression along the process. FIG. 7 begins by contacting a
sheet of plastic cover material 765 with roll A.sub.7. Note that sheet 765
is pre-perforated with a longitudinal series of perforations 743 and
optional top perforation segment 745 and bottom perforation segment 747.
After the sheet 765 is contacted with the roll, (such as with B.sub.7),
the sheet is mechanically rolled around the tubular circumference of the
paper roll towel (such as rolls C.sub.7 and D.sub.7). As illustrated with
roll D.sub.7, the sheet is rolled with respect to the roll of paper towel
on a surface 700. Next, as illustrated with roll E.sub.7, conventional
heater element 769 is lowered in contact with the sheet of plastic to heat
fuse a longitudinal seam between the two free ends of the sheets of
plastic. In this way, a tube of thin plastic is formed around the roll of
paper with overhanging edges over the top end and bottom end of the roll
of paper. Next, as illustrated with roll F.sub.7, these overhanging edges
of plastic are tucked with conventional tucking toggles 773 and 775, which
are pivotably mounted. Next, as illustrated with rolls G.sub.7 and
H.sub.7, conventional heating elements 777 and 779 heat seal the sheet of
plastic of the plastic cover overhanging the top end and bottom end of the
roll of paper, providing a heat fused portion around each of the
respective top and bottom ends of the roll of paper. The finished product,
such as roll I.sub.7, is ready for distribution and sale, already having
longitudinal, and optionally, circumferential perforation segments cut
therein. Of course, it would be possible to use the process of FIG. 7
without having pre-perforations as illustrated, and instead use
perforation scoring devices, such as perforator 681 and transverse
perforator 685 as illustrated in FIG. 6.
Referring now to FIGS. 8-11, a third preferred embodiment 821 of the paper
roll cover of the present invention is shown. This third preferred
embodiment provides a reusable outer cover 825 suitable for allowing
replacement of the paper roll contained therein. Wrapped paper roll 821
includes paper roll 823 surrounded by plastic outer cover 825. Outer cover
825 may be clear, or any one of a number of colors, prints, or patterns.
It is preferable, although not necessary, that outer cover 825 be at least
partially clear or translucent to enable the user to locate leading edge
837 of the end sheet of paper 835 to align it with dispensing opening 851
for dispensing. Paper roll 23 includes a central longitudinal core 833
therein on which the paper sheets are wrapped. The core defines a central
longitudinal axis.
Plastic outer cover 825 includes a cylindrical side (or tubular portion)
827, a top end 829, and a bottom end 831 surrounding corresponding
portions of the paper roll 823. Preferably, cylindrical side 827, top end
829 and bottom end 831 are all formed from an integral sheet of plastic.
In the third preferred embodiment, the wrapped paper roll of FIGS. 8-11
has a central concentric opening 832 in bottom end 831 of the cover, and a
central concentric opening 830 in top end 829 of the cover. In the
embodiment as shown in FIGS. 8-11, these openings 830 and 832 are open,
exposing the roll of paper 823 partially on its top end 829 and bottom end
831. Central concentric opening 830 and opening 832 are each defined by
respective circumferential elastic members 855 and 857 as illustrated.
Each of these circumferential elastic members are attached to the
respective top end or bottom end of the cover and provide tensional hoop
stress on the cover ends. This hoop stress provides a radially inward
force towards the longitudinal axis defined by the central core 833 of the
roll of paper 823. Elastic members 855 and 857 are preferably connected to
top end 829 and bottom end 831 by being placed in a hem type structure
formed by folding in and heat sealing the end of the plastic used to
define the top and bottom ends. Accordingly, as paper towel sheets are
removed from the roll 823 and it diminishes in size, elastic members 855
and 857 cause the plastic outer cover 825 to collapse down upon the roll
of paper as illustrated in FIGS. 10 and 11. This functions to keep outer
cover 825 relatively snug against the outermost sheets of the roll of
paper 823.
Openings 830 and 832 may be expanded by stretching elastic members 855 and
857 to stretch around a new roll of paper towel. In this way, outer cover
825 may be loaded with a new roll of paper.
Outer cover 825 has a flexible plastic flap 853 integrally formed therein.
Flap 853 covers dispensing opening 851 when closed as illustrated in FIGS.
8 and 9. In FIGS. 10 and 11, flap 853 is shown open, exposing dispensing
opening 851 for removal of sheet 835 in FIG. 10, and sheet 835' in FIG.
11. Flap 853 includes a flap closure 859 which couples to either flap
closure 861 or flap closure 863. As illustrated, flap closure 859 is made
of a hook material offered under the trademark Velcro, whereas closures
861 and 863 are each made of Velcro.TM. loop material. Of course, flap
closure 859 could be made of Velcro loop with flap closure 861 and flap
closure 863 being made of Velcro hook. Furthermore, such closures may be
other suitable means such as snaps, ties and the like.
To use the device of FIGS. 8-11, the operator opens flexible plastic flap
853 by separating closure 859 from closure 861. This exposes dispensing
opening 851 from which end sheet of paper 835 is unrolled from paper roll
823. While pulling on sheet 835 with one hand, the user supports wrapped
paper roll 821 in the palm of his opposite hand. As the roll is depleted,
as illustrated in FIG. 11, flap 853 may be closed such that closure 859
engages closure 863 rather than closure 861. This allows for snug closure
as plastic outer cover 825 radially contracts inward.
Plastic outer cover 825 is typically of a heavier gauge plastic than the
shrink-wrap type plastic used in the wrapped paper rolls illustrated in
FIGS. 1-5 to provide a tougher and more durable material suitable for
reusable applications.
While the invention has been illustrated and described in detail in the
drawings and foregoing description, the same is to be considered as
illustrative and not restrictive in character, it being understood that
only the preferred embodiments have been shown and described and that all
changes and modifications that come within the spirit of the invention are
desired to be protected.
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