Note: Descriptions are shown in the official language in which they were submitted.
CA 02583594 2007-04-20
DOUBLE CORE TISSUE ROLL, DISPENSER AND METHOD
Field
This invention relates to the dispensitlg of Nveb material such as toilet
tissue, paper towels and the like, fronl rolls of Nveb material contained
within a
dispenser. This invention further relates to improved rolls that contain web
material
for use with a dispenser, and to methods of forming such rolls. The inventive
concepts will be described hereinafter prinlarily in relation to toilet tissue
dispensers
and toilet tissue rolls. It is to be realized that the inventive concepts
described lierein
have applications to other types of web materials in addition to toilet
tissue,
including, but not liniited to, paper towels.
Background
There has been continuing effort over the years to provide toilet
tissue dispensers that store multiple rolls of toilet tissue and sequentially
dispense
the rolls. One of the advantages provided by these types of dispensers is that
a
reserve roll (or rolls) is available as a replacenient for the roll that is
currently in use.
To avoid tissue waste, it is itnportant that the roll currently in use be
depleted to its fiillest extent before allowing the user to access a
replacenlent roll.
Devices that attempt to achieve such a result using a variety of inethods are
known
in the prior art, as exemplified in U.S. Patents 3,294,329; 3,381,909;
3,387,902;
4,108,513; 4,522,346; 4,577,426; 5,310,129; 5,636,812; and 5,749,538.
There is, however, a continuing need for improved toilet tissue
dispensers that inhibit access to a replacement roll until the roll currently
in use is
depleted.
Summarv
The invention provides an improved web material dispenser that is
designed to dispense web material, such as toilet tissue or the like. The web
material
dispenser comprises a housing, with a spider rotatably mounted within the
housing
for rotation about an axis extending through a center of the spider. A
plurality of
spools are connected to the spider and project therefrom in a direction
parallel to the
rotation of the spider axis. The spools are rotatable with the spider along a
rotational
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path spaced from the axis. A core stop is fixed to the housing, with the core
stop
crossing the rotational path of the spools to prevent rotation of the spider
until the
tissue has been substantially depleted or exhausted from the roll.
[n addition to the web nlaterial dispenser, the invention provides an
improved web nlaterial roll for use in the inventive web material dispenser
described
herein or in other web material dispensers, as well as a method of making the
roll.
In one version as clairned, a web material roll includes first and
second core sections, with the core sections being spaced apart from each
other to
define a gap therebetween. In addition, a web niaterial is wound onto the core
sections.
A method of forming a core for this type of web material roll
comprises providing an elongate, generally cylindrical tube having a
longitudinal
axis; cutting the tube into a plurality of generally cylindrical sections,
with each of
the sections having a length approximately equal to a width of web material to
be
wound onto the roll; and removing a predetermined length from proximate the
center
of at least one of the sections to fonn first and second core sections,
whereby the
combined length of the first and second core sections is less than the width
of the
web material to be wound thereon.
These and various other advantages and features of novelty which
characterize the invention are pointed out with particularity in the claims
annexed
hereto and fonning a part hereof. However, for a better understanding of the
invention, its advantages and objects obtained by its use, reference should be
made
to the drawings which fonn a further part hereof, and to the accompanying
description, in which there is described a preferred embodiment of the
invention.
Brief Description of the Drawings
Figure 1 is a front view of the web tnaterial dispenser, with the front
housing portion open relative to the rear housing portion to show the
interiors
thereof and with the spider and core stop removed from the rear housing
portion.
Figure 2 is a front view of the rear housing portion showing the
spider and core stop.
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Figure 3 is a side view of the core stop and the roll at the dispensing
position, viewed generally in the direction 3-3 in Figure 2.
Figure 4 is a view similar to Figure 2 showing rotation of the spider
upon depletion of the web material from the roll at the dispensing position.
Figure 5 is a cross-sectiotial view of the coi-e stop and core taken
along line 5-5 in Figure 4.
Figure 6 illustrates a dispenser using a secoild embodiment of a core
stop.
Figure 7 is a side view of the core stop and the roll at the dispensing
position, viewed generally in the direction 7-7 in Figure 6.
Figure 8 is a view similar to Figure 6 showing rotation of the spider
upon depletion of the web material from the roll at the dispensing position.
Figure 9 is a cross-sectional view of the core stop and core taken
along line 9-9 in Figure 8.
Figure 10 illustrates a tube that is used to form the core of the web
material roll.
Figures 1 1 and 12 are a side N iew and a perspective view,
respectively, of the web material roll utilizing a core that is formed from
the tube in
Figtire 10.
Detailed Description
The web material rolls and the methods of making the rolls will first
be described by referring to Figures 10-12. The web material roll and related
method described herein are specifically directed to rolls of toilet tissue.
However, it
is to be realized that the inventive concepts could be used in relation to
other types
of web niaterial rolls that have a core and a web material wound onto the
core, such
as paper towel rolls. In addition, the inventive web material rolls are
described as
being used on the inventive web material dispensers described herein. It is to
be
realized that the web tnaterial rolls could be used with other types of web
material
dispensers in addition to the dispensers described herein.
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Figures 10-12 illustrate the toilet tissue roll and niethod of forming
the core thereof. This roll iises what can be referred to as a"double core".
Initially,
as iliustrated in Figure 10, an elongate, generally cylindrical tube 12 having
a
longitudinal axis A-A is provided. The tube 12 is then cut at points 14a,
14b.. ..14n
to form a plurality of equal length sections 16a, 16b,. ..16n having a width
approximately equal to the width of toilet tissue. A portion 18 (shown in
hatclled
lines) proximate the center of each section l6a-n i.s then removed by cutting
to form
core two core sections 20a, 20b. The combined length of the core sectioris
20a, 20b
is thus less than the width of the toilet tissue to be wound onto the core
sections 20a,
20b. In one implenientation, the portion 18 that is removed from each section
16a-n
preferably has a length I of approximately 2.0 inches, so that the combined
length of
the core sections 20a, 20b is approximately 2.0 inches shorter in length than
the
tissue to be wound thereon. The tube 12 can have any convenient length from
which
a plurality of core sections can be formed, such as a length of approximately
115.0
inches.
Once the core sections 20a, 20b are formed, toilet tissue 22 is wound
onto the core sections 20a, 20b with the core sections 20a, 20b being spaced
apart
from each other, as is evident from Figures 11 and 12 which illustrate a
subsequently
formed toilet tissue roll. As is further evident from Figures 1 1 and 12, the
core
sections 20a, 20b include ends 24a, 24b that face each other and which are
spaced
apart by approximately the distance I thereby forming a gap 25. The core
sections
20a, 20b further include ends 26a, 26b that are even with the opposite side
surfaces
28 of the tissue 22. Thus, there is a portion of the tissue 22 approximately
midway
between the side surfaces 28 that is not core supported due to the gap 25
between the
ends 24a, 24b of the core sections 20a, 20b. The gap 25 between the core
sections
20a, 20b remains until such time as the tissue 22 is substantially depleted
from the
roll.
As will be described below, the gap 25 between the core sections 20a,
20b facilitates sensing that the tissue is substantially depleted or exhausted
from the
roll. It is to be realized that the core sections 20a, 20b could be formed
using
methods other than that described above. For instance, instead of removing a
single
CA 02583594 2007-04-20
portion at the center of each section, portions could be removed from each end
of a
section and the section then cut in half to therebv fonn the core sections.
One implementatioil of a web material dispenser 50 is illustrated in
Figures 1-5. Witli reference to Figure 1, the dispenser 50 includes a rear
housing
5 portion 52 and a front housing portion 54 pivotally connected to the rear
housing
portion 52 at the bottom ends thereof via pivots 56. The housing portions 52,
54
include cooperating locking stntctures 58a, 58b at the top ends thereof, by
which the
housing portions 52, 54 can be locked together to fonn an enclosure for a
plurality of
rolls of toilet tissue.
The housing portions 52, 54 are generally circular in shape, with each
including a generally circular end wall 60, 62 and a generally circular
sidewall 64,
66. The end walls 60, 62 and sidewalls 64, 66 combine to fonn an interior
space
when the housing portion 54 is pivoted upward from the position shown in
Figure 1
and connected to rear housing portion 52, via the locking structures 58a, 58b.
When
the housing portions 52, 54 are locked together, the end walls 60, 62 face
each other
and the sidewalls 64, 66 fit together to form an enclosure. A dispensing
opening 70
is formed by the sidewalls 64, 66 at the bottoms thereof through which tissue
from
one of the tissue rolls is dispensed.
The end wall 60 of the housing portion 52 is further provided with a
plurality of slots 72 by which the housing portion 52 can be mounted to a wall
or
other fixed structure using bolts, screws or other suitable fasteners.
With reference to Figures 2 and 4, a spider 78 is rotatably mounted on
the rear housing portion 52 for rotation about a central axis B in a clockwise
direction as shown by the arrows in Figures 2 and 4. The spider 78 is
generally
circular in shape and includes a central boss 80 projecting from the center
thereof
parallel to the rotation axis B and toward the front housing portion 54. The
boss 80
is sized to rotatably fit over a cylindrical hub 82 (best seen in Figure 1)
that projects
from the end wall 60 of the rear housing portion 52 in the direction of the
axis B.
Tiie boss 80 and hub 82 are preferably secured together via a snap fit
connection that
detachably connects the boss 80 and hub 82 together while permitting rotation
of the
boss 80, and thus the spider 78, on the hub 82.
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In addition, an x-shaped formation 90, visible in Figures 1, 2 and 4,
projects from the top end of the boss 80. Further, an actuation disk 92, shown
in
dashed lines in Figure l, is rotatabiy mounted on the front housing portion
54. The
disk 92 is disposed on the exterior side of the end wall 62 whereby the disk
is
accessible froni outside the housiilg 52, 54 by a user in order to rotate the
spider 78.
A plurality of circumferentiallv spaced fingers 94 project reanvardly from the
disk
92 toward tiie rear housing portion 52, with a gap between each adjacent
finger 94.
The x-shaped fornlation 90 and the fingers 94 are sized such that they engage
when
the front housing portion 54 is pivoted to the closed position relative to the
rear
housing portion 52, with x-shaped formation 90 disposed within the gaps
between
the fingers 94. With this construction, rotation of the disk 92 causes
rotation of the
spider 78. A pair of diametrically opposite fingers 94 each include a shoulder
96
formed thereon which fit over a boss 98 projecting from the interior surface
of the
end wall 62 so as to rotatably secure the disk 92 to the end wall 62.
Returning to Figures 2 and 4, the spider 78 is shovm to include a
plurality of spools 100a-d, in this instance four spools, projecting from the
spider 78
parallel to the axis B, with the spools disposed adjacent to the
circumfereiice of the
spider 78. The spools 100a-d are spaced at 90 degree intervals around the
spider 78.
However, it would be possible to use a larger or lesser number of spools,
depending
upon the size of the tissue rolls and the needs of the consumer, in which case
the
spools would be spaced at intervals of 360 degrees divided by the number of
spools.
Each spool 100a-d is sized to receive thereon a tissue roll 102.
As shown in Figures 2 and 4, the circumference of the spider 78 is
provided with a plurality of detents 104. Preferably, there is one detent 104
for each
spool 100a-d disposed on the spider 78. A resilient indexing finger 106 is
fixed at a
first end thereof to the rear housing portion 52 and the second end thereof
extends
toward the spider for engagement within one of the detents 104. When the end
of
the finger 106 engages in a detent 104, rotation of the spider 78 in a
counterclockwise direction is prevented, and one roll 102 is held at a
dispensing
position while a second roll 102 is at a reserve position (see Figure 2).
However,
rotation of the spider 78 in a clockwise direction is selectively permitted,
as
described below.
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A core stop 110 is ftirther fixed to the rear housing portion 52 and
extends along a radial axis toward the boss 80 of the spider 78 and into the
rotation
path of the spools 100a-d and rolls 102. The rotation path of the spools 100a-
d is
shown in dashed lines in Figure 4, and includes an outer rotation path P.
defined by
the radially outermost point of the spools 100a-d as the spider rotates, an
inner
rotation path P; defined by the radially innermost point of the spools, and a
central
rotation path P, defined by the central point of the spools. As used herein,
rotation
path is meant to include at least one of the paths P, P, and P;.
The core stop 1 10, as best seen in Figure 5, includes a first portion
112 extending parallel to the spools 100a-d and a second portion 114 that
extends
perpendicular to the spools. The second portion 114 extends toward and crosses
the
outer, central and inner rotation paths of the spools 100a-d and includes a
bottom
edge 116 that is spaced a distance d above the spider 154. Further, as
illustrated in
Figure 3, the second portion 114 includes a front surface 118 that is sloped
toward
the bottom edge 116 in the direction of rotation of the spider 78.
With reference to Figures 2-5, a "double core" type of roll, such as
the roll described in Figures 11 and 12, is loaded onto each spool 100a-d. The
rolls
102 are shown as being mounted onto the spools 100a-d such that the core
sections
20a are above the core sections 20b. However, the rolls 102 could be mounted
such
that the core sections 20b are positioned above the core sections 20a.
As shown in Figure 3, the distance d, between the side surfaces 28 of
the tissue 22 is greater than the distance d between the bottom edge 116 of
the
second portion 114 of the core stop 110 and the spider 78. Thus, the tissue 22
wi11
contact the second portion 114 of the core stop 110, if a user tries to rotate
the spider
78, and thereby prevent clockwise rotation of the spider 78. The tissue 22
will retain
the core sections 20a, 20 in their spaced apart condition until such time as
the tissue
22 has been substantially depleted or exhausted from the roll, and rotation of
the
spider 78 will be prevented. It is important to realize that the distance d is
greater
than the length of the spools 100a-d, as evident from Figure 5, such that,
during
rotation of the spider 78, the spools can travel under the bottom edge 116 of
the core
stop 110.
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However, referring to Figures 4 and 5, once the tissue 22 has been
substantially depleted or exhausted, if a user rotates the spider 78 in a
clockwise
direction, the angled front surface 1 18 will cause the core section 20a to be
forced
downward toward the core section 20b. Thus, as evident from Figure 5, the core
sections 20a, 20b and the spool 100a can travel under the bottoin edge 116 to
permit
the spider 78 to be rotated so as to bring the next reserve tissue roll into
the
dispensing position.
Thus, the core stop 110 acts as a nieans for sensing that the tissue has
been exhausted from the roll currently at the dispensing position. Once the
tissue
has been exhausted, the spider can be manually rotated in the clocktivise
direction to
bring the reserve roll to the dispensing position. Since the reserve roll has
tissue
thereon, the tissue contacts the core stop 110 and prevents further rotation
of the
spider until the reserve roll is itself exhausted of tissue.
Figures 6-9 illustrate another embodiment of a dispenser 150. The
dispenser 150 is similar to the dispenser 50 of Figures 1-5, except that the
dispenser
150 uses a different core stop 152. The core stop 152 in Figures 6-9 is
configured to
function with the gap 25 between the core sections 20a, 20b in order to sense
the
depletion of tissue from the roll.
With reference to Figure 9, it is seen that the core stop 152 includes a
vertical portion 154 extending parallel to the spools. A finger 156 projects
from the
vertical portion 154 approximately midway along the length thereof, and
extends
along a radial axis toward the boss 80 of the spider 78. In this embodiment,
the
distal end of the finger 156 preferably extends at least past the outer
rotation path Po
defined by the radially outermost point of the spools I OOa-d, but no further
than the
central rotation path P, Preferably, the end of the finger is located adjacent
the
central rotation path, although the end could be located between the outer and
central
paths as well. Each spool 100a-d is formed with a cut-out 158 that, when a
roll 102
is mounted on each spool, is positioned adjacent the gap 25. The cut-out 158
is
defined over approximately one-half of the circumference of each spool.
The core stop 152 functions as follows. When tissue 22 in the roll
102, the tissue 22 will contact the finger 156 and rotation of the spider 78
is
prevented. The spider will be prevented from rotating as long as tissue
remains on
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the roll. However, once the tissue 22 has been substantially depleted or
exhausted,
the cut-out 158 will be uncovered, and the finger 156 can then pass through
the cut-
out 158 in the spool 100a to pennit rotation of the spider to bring the next
reserve
roll to the dispensing position. Thus, in this embodiment, the core sections
20a, 20b
remain generally spaced apart.
It is contemplated that rotation of the spider 78 could be caused by a
user when a small amount of tissue renlains on the roll, in which case
sufficient
force wouid need to be applied to overcome the force of the tissue that
remains
covering the gap 25 and the cut-out 158. Under most circumstances, the force
required to produce such a rotation would be sufficiently large so as to deter
rotation
until the tissue has been substantially depleted or exhausted.
It is to be realized that the dispensers 50, 150 described herein could
be utilized with tissue rolls other than those described herein and still be
in
accordance with the principles of the invention. Furthermore, the tissue rolls
described herein could be utilized on dispensers other than those described
herein
and still be in accordance with the principles of the invention.
The above specification, examples and data provide a complete
description of the nlanufacture and use of the composition of the invention.
Since
many embodiments of the invention can be made without departing from the
spirit
and scope of the invention, the invention resides in the claims hereinafter
appended.
