Note: Descriptions are shown in the official language in which they were submitted.
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INSULATED CONTAINER ASSEMBLY WITH THERMAL STORAGE
ACCOMMODATION
Field of the Invention
This invention relates to the field of portable insulated containers.
Background of the Invention
Insulated containers have become popular for carrying either articles that may
best be
served cool, such as beverages or salads, or warm, such as appetizers, and so
on. Often such
containers are used for carrying children's lunches as when at school.
Soft-sided insulated containers have the advantage of being relatively light,
and so
therefore relatively easily carried, and relatively forgiving in terms of
imparting damage to the
objects placed within them. However, it may be desirable to obtain the
insulative benefit of a
soft-sided insulated container, in combination with a thermal storage member,
such as an ice
pack or gel pack, or heating pack, as maybe. Sometimes these containers may by
used to carry
lunches, which may include a sandwich, fruit, carrot and celery sticks, a
drink, cookies, and so
on. However, cooling packs (as they most normally may be) tend to present a
number of
convenience and use issues. The present inventor provides a thermal storage
package for use in
conjunction with a container that may tend to address these issues.
Summary of the Invention
In an aspect of the invention there is a container assembly. In one embodiment
it has a
soft-sided insulated wall structure defining therewithin a chamber in which to
receive objects.
The wall structure has a first closure operable to govern access to the
chamber. The wall
structure includes a first region. The first region has at least a first
accommodation defined
therein next to the chamber in which to receive at least a first thermal
storage member. The
accommodation has a second closure. The second closure permits passage
therethrough of at
least the first thermal storage member, whereby the thermal storage member may
be positioned
in the accommodation without opening the first closure member of the chamber.
In a feature of that aspect of the invention, the container is a soft-sided
insulated
container. In another feature the container is a collapsible soft-sided
insulated container. In a
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further feature, the container has a wall section having an outer layer and an
inner layer. The
inner layer is a membrane and the outer layer includes a layer of thermal
insulation. In stil
another feature, the container has at least a second accommodation, and has
first and second gel-
packs for fitting in the first and second accommodations, the gel packs being
interchangeable. In
still another feature, it has a gel pack for seating in the accommodation, the
gel pack having the
form of a substantially flat panel. In another feature, the second closure
includes a tracked
fastener movable between open and closed positions. In still another feature,
the container
assembly is expandable. In still another feature the container assembly is a
non-collapsible lunch
box. In a further alternate feature, the container assembly is a tote bag or a
back pack.
In another feature, the container includes at least the first thermal storage
member. The
first thermal storage member has a span, a width, and a through thickness. The
through-
thickness is smaller than each of the span and the width. The thermal storage
member has a heat
transfer interface defined by the span and the width. The accommodation has a
face against
which the heat transfer interface is opposed, thereby to engage in heat
transfer with the chamber.
The second closure member, when open, defines an opening to accommodate a face
defined by
the through-thickness and one of the span and the width. The thermal storage
member is slidable
through the opening to seat in the accommodation. In another feature, the
container assembly
includes at least the first thermal storage member. The second closure defines
a slot. The first
thermal storage member has a large face that faces the chamber. The thermal
storage member
has a small face that permits the thermal storage member to slip through the
slot into the
accommodation.
In another aspect of the invention there is a soft-sided insulated container
having an
insulated chamber therewithin. The container has at least a first externally-
accessible gel pack
slot into which to seat a first gel pack in a position to cool the chamber,
external access to the gel
pack slot being independent of access to the insulated chamber.
In a feature of that aspect of the invention, the container is collapsible. In
another
feature, the container is a foldable bag. In another feature, the container
has at least a second gel
pack slot having external access. In another feature, the container has at
least first and second
gel-packs mountable within the first and second gel pack slots, and the first
and second gel packs
are interchangeable. In still another feature, the insulated container has a
wall structure, the wall
structure including an inner layer and an outer layer, the inner layer being a
membrane, and an
outer layer, the outer layer including a layer of thermal insulation. In yet
another feature, the
inner membrane is one of (a) transparent; and (b) translucent.
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In a further feature, the container has a first, substantially flat panel, the
gel pack slot is
formed in the panel, and the gel pack slot has an opening running along an
edge of the panel to
permit a first gel pack to be moved into the first gel pack slot in a
transverse manner relative to
the panel, whereby the gel pack slot is a side-entry gel pack slot. In another
feature, the soft-
sided insulated container has a front wall, a rear wall, a bottom wall, and
side walls; in an empty
condition of the container the side walls fold to permit the front wall to lie
next to the rear wall.
In yet another feature, the container includes at least the first gel pack
slot and a second gel pack
slot. The first gel pack slot being defined in one of: (a) the front wall; (b)
the rear wall, of each
of the first gel pack and the second gel pack.
In another feature, the container includes at least the first gel pack. The
gel pack has a
span, a width, and a through thickness. The through-thickness is smaller than
each of the span
and the width. The gel pack has a side face defined by the span and the width.
The gel pack has
and end defined by (a) the through-thickness and (b) one of the span and the
width. The
chamber has a wall that has an accommodation defined therein, the externally
accessible slot
defining an entrance to the accommodation. When the slot is open, the gel pack
is slidable end-
wise there-through to seat in the accommodation. In another feature, the
container assembly
includes at least the first thermal storage gel pack. The first thermal
storage gel pack has a large
face that, when installed, faces the chamber. The first thermal storage gel
pack has a small face
that permits the thermal storage member to slip through the slot.
In another aspect of the invention, there is an insulated container assembly.
It has an
insulated wall structure having a chamber defined therein in which to place
objects. The
container assembly has a first closure movable to govern access to the
chamber. The insulated
wall structure has a non-planar accommodation defined therein. The non-planar
accommodation
has an external access separate from the first closure member.
In a feature of that aspect, the insulated wall structure is a soft-sided
insulated wall
structure. In another feature, the accommodation is segregated from the
chamber. In a further
feature, the wall structure includes a heat transfer interface member defining
a common wall of
the chamber and the accommodation. In still another feature, the wall
structure includes a layer
of insulation outboard of the accommodation. In yet another feature, the
accommodation defines
an arcuate path, and the container assembly includes at least a first thermal
storage member, the
thermal storage member is bendable to follow the arcuate path. In still
another feature, at least
the first thermal storage member is articulated.
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In another aspect of the invention there is a soft-sided insulated container
assembly. It
has a soft-sided insulated wall structure having a top wall panel, a bottom
wall panel, and a
peripheral sidewall extending between the bottom wall panel and the top wall
panel. The top
wall panel has an inner membrane and insulation outside the inner membrane.
The bottom wall
panel having an inner membrane and insulation outside the inner membrane. A
partition located
intermediate the top wall panel and the bottom wall panel within the soft-
sided insulated
container assembly. The top wall panel has a first slot formed within the top
wall panel between
the inner membrane and the insulation of the top wall panel, the first slot
being externally
accessible when the insulated container assembly is closed. The bottom wall
panel has a second
slot formed within the bottom wall panel between the inner membrane and the
insulation of the
bottom wall panel, the second slot being externally accessible when the
insulated container
assembly is closed. The partition having a third slot formed therein. At least
a first thermal
storage member, the first thermal storage member being sideways slidable into
at least one of the
first slot, the second slot, and the third slot.
In a feature of that aspect, the container assembly includes a first chamber
portion and a
second chamber portion. The partition divides the first chamber portion from
the second
chamber portion. In another feature, the partition defines a bottom wall panel
of the first
chamber portion and a top wall panel of the second chamber portion. In still
another feature, the
peripheral wall has a closure intermediate the top wall panel and the bottom
wall panel, and the
peripheral wall is hinged. When the peripheral wall closure is open the first
chamber portion is
movable relative to the second chamber portion between a first position and a
second position.
In the first position of the first chamber access to the second chamber is
obstructed. In the
second position of the first chamber access to the second chamber is open. In
the second
position of the first chamber the third slot is accessible.
In another feature, the soft-sided insulated peripheral wall has an upper
portion and a
lower portion. The partition defines a bottom wall panel of the first chamber
portion. The
partition, the upper portion of the soft-sided insulated peripheral wall and
the top panel cooperate
to define a first six sided box. The top wall panel defines a lid of the first
six-sided box, the lid
being movable between an open position and a closed position relative to the
upper portion of
the soft-sided insulated peripheral wall to govern access to the first chamber
portion. The first
six sided box is movable between an open position and a closed position
relative to the lower
portion of the soft-sided insulated peripheral wall to govern access to the
second chamber
portion. In an additional feature, the third slot is defined on an underside
of the partition. In
another feature, the upper portion of the soft-sided insulated peripheral wall
is hingedly mounted
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to the lower portion of the soft-sided insulated peripheral wall. In still
another feature, the first
thermal storage member is sideways slidable into the first slot; and the soft-
sided insulated
container assembly includes a second thermal storage member that is sideways
slidable into the
second slot of the bottom wall panel, and a third thermal storage member that
is sideways
slidable into the third slot. In another feature, the first thermal storage
member is a rectangular
sided gel pack. In another feature, the first chamber portion and the second
chamber portion are
the same size.
In another feature, the soft-sided insulated peripheral wall has an upper
portion and a
lower portion, the upper portion being hingedly movable relative to the lower
portion. The
container assembly includes a first chamber portion and a second chamber
portion. The partition
divides the first chamber portion from the second chamber portion. The
partition, the upper
portion of the soft-sided insulated peripheral wall and the top wall panel
cooperate to define the
first chamber portion. The lower portion of the soft-sided insulated
peripheral wall and the
bottom wall panel cooperate to define the second chamber portion. The first
chamber portion is
movable to govern access to the second chamber portion. The partition is
movable between an
open position and a closed position relative to the first chamber portion. In
still another feature,
the top wall of the first chamber portion is movable between an open position
and a closed
position relative to the first chamber portion. When the first chamber portion
is in a closed
position relative to the second chamber portion the first chamber portion is
accessible by opening
the top wall. When the first chamber portion is moved to an open position
relative to the second
chamber portion the first chamber portion is accessible by opening the
partition.
In another aspect of the invention there is a soft-sided insulated container
assembly. It
has a soft-sided insulated wall structure defining a chamber therewithin in
which to receive
objects, the wall structure having a first closure operable to govern access
to the chamber. The
wall structure includes an inner layer, an outer layer and a layer of
insulation located between the
inner layer and the outer layer. The wall structure including a first region.
The first region has at
least a first accommodation defined therein between the insulation and the
inner layer next to the
chamber in which to receive at least a first thermal storage member. The
accommodation has a
second closure. The second closure permits sideways sliding passage of at
least the first thermal
storage member therethrough into the accommodation. The accommodation is
separated from
the chamber. The second closure is externally accessible when the chamber is
closed.
In a feature of that aspect, the container has an upper chamber and a lower
chamber.
Each of the upper chamber and the lower chamber has one of the accommodations
and one of the
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externally accessible second closures. The upper chamber is movable relative
to the lower
chamber. A third thermal storage element accommodation is located between the
upper chamber
and the lower chamber when the upper chamber is stacked upon the lower
chamber.
The features of the aspects of the invention may be mixed and matched as
appropriate
without need for multiplication and repetition of all possible permutations ad
combinations.
Brief Description of the Drawings
These and other aspects and features of the invention may be more readily
understood
with the aid of the illustrative Figures below, showing an example, or
examples, embodying the
various aspects and features of the invention, provided by way of
illustration, and in which:
Figure la shows a perspective view from in front, to one side and above an
example of
an embodiment of a collapsible soft-sided insulated container assembly showing
an externally accessible thermal storage member access opening and a thermal
storage member for placement in that opening;
Figure lb is a perspective view of the soft-sided insulated container assembly
of Figure
la in a partially full condition, with thermal storage access openings closed;
Figure lc is a perspective view of the container of Figures la and lb in a
folded or
collapsed condition;
Figure id is a front view of the folded container assembly of Figure lc;
Figure le is a left-hand side or end view of the folded container assembly of
Figure lc;
Figure 2a is an isometric view of the soft-sided insulated container assembly
of Figure
la in an expanded, unfolded, or filled condition;
Figure 2b is a front view of the container assembly of Figure 2a;
Figure 2c is a rear view of the container assembly of Figure 2a;
Figure 2d is a top view of the container assembly of Figure 2a;
Figure 2e is a bottom view of the container assembly of Figure 2a;
Figure 2f is a side view of the container assembly of Figure 2a;
Figure 3a is a perspective view of the container assembly of Figure la with
the thermal
storage accommodations open to permit access;
Figure 3b is a sectional view of the wall construction of the soft-sided
insulated
container assembly of Figure la taken on section `3b ¨ 3b' of Figure 2b;
Figure 3c is a view similar to Figure 3a of an alternate embodiment of soft-
sided
insulated container to that of Figure 3a;
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Figure 3d is a view of an alternate embodiment of the soft-sided insulated
container of
Figure 3a showing bottom and side access for cooling elements;
Figure 4a is a perspective view of an alternate collapsible soft-sided
insulated container
assembly to that of Figure la in a partially expanded position or condition of
a
lunch sack that is generally triangular in side-view;
Figure 4b is a front view of a thermal storage member for the container
assembly of
Figure 4a in the partially expanded condition;
Figure 4c is a front view of the soft-sided insulated container assembly of
Figure 4a in a
fully expanded position or configuration;
Figure 4d is a rear view of the container assembly of Figure 4c;
Figure 4e is a top view of the container assembly of Figure 4c;
Figure 4f is a side view of the container assembly of Figure 4c;
Figure 5a is a perspective view of an alternative, tote-bag, configuration of
soft-sided
insulated container assembly to that of Figure la;
Figure 5b is a front view of the container assembly of Figure 5a;
Figure 5c is a rear view of the container assembly of Figure 5a;
Figure 5d is a side or end view of the container assembly of Figure 5a;
Figure 5e is a bottom view of the container assembly of Figure 5a;
Figure 5f is a view at the main closure of the container assembly of Figure
5a;
Figure 5g is an alternate side of end view of the container assembly of Figure
5a;
Figure 6a is a perspective view of an alternate embodiment of soft-sided
insulated
container assembly to that of Figure la in a lunch-box configuration, taken
from
in front, to one side, and slightly above;
Figure 6b shows the lunch box of Figure 6a as viewed on the opposite diagonal;
Figure 6c is a front view of the lunch box of Figure 6a;
Figure 6d is a rear view of the lunch box of Figure 6a;
Figure 6e is a side view of the lunch box of Figure 6a;
Figure 6f is a top view of the lunch box of Figure 6a;
Figure 7a is a plan view of a thermal storage element for the lunch box of
Figure 6a;
Figure 7b is a long-side view of the element of Figure 7a;
Figure 7c is a short-side, or end, view of the element of Figure 7a;
Figure 8a is a plan view of a thermal storage element for use with insulated
container
assemblies such as those of Figures la, 4a, and 5a;
Figure 8b is a long-side view of the element of Figure 8a;
Figure 8c is a short-side, or end, view of the element of Figure 8a;
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Figure 9a is a plan view of an alternate thermal storage element for use with
soft-sided
insulated container assemblies such as those of Figures la and 4a;
Figure 9b is a long-side view of the element of Figure 9a;
Figure 9c is a short-side, or end, view of the element of Figure 9a;
Figure 10a is a perspective view of an alternate, expandable, embodiment of
lunch box
to that of Figure 6a in collapsed form;
Figure 10b is a perspective view of the lunch box of Figure 10a as open;
Figure 10c is a top or front view of the lunch box of Figure 10a,
Figure 10d is a bottom or rear view of the lunch box of Figure 10a;
Figure 10e is a right side view of the lunch box of Figure 10a in a retracted
position;
Figure 10f is a left side view of the lunch box of Figure 10a in a retracted
position;
Figure lOg is a top short end view of the lunch box of Figure 10a in a
retracted position;
Figure 10h is a bottom short end view of the lunch box of Figure 10g,
Figure 10i is a perspective view of the lunch box of Figure 10a in expanded
form;
Figure 10j is a perspective view of an alternate, expandable, embodiment of
lunch box to
that of Figure 10b in expanded form;
Figure 10k is a right side view of the lunch box of Figure 10e as expanded;
Figure 10/ is a left side view of the lunch box of Figure 10f as expanded;
Figure 10m is a top short end view of the lunch box of Figure lOg as expanded;
Figure 10n is a short end view of the lunch box of Figure 10h as expanded;
Figure ha is a cross-section of the retracted container assembly of Figure
10a;
Figure lib is a cross-section of the expanded container assembly of Figure
101;
Figure 12a is a perspective view of an alternate, expandable, embodiment of
lunch box
to that of Figure 10a,
Figure 12b is a side view of the lunch box of Figure 12a in a retracted
position;
Figure 12c is a top view of the lunch box of Figure 12a in a retracted
position;
Figure 12d is a side view of the lunch box of Figure 12a in an expanded
condition or
position;
Figure 12e is a bottom view of the lunch box of Figure 12a as expanded;
Figure 13a shows an isometric view of an insulated soft-sided container that
is an
alternate embodiment to that of Figure la;
Figure 13b is view similar to Figure 13a showing thermal storage elements in a
partially
inserted condition;
Figure 13c is an end view of the container of Figure 13a similar to Figure 3a;
Figure 13d is an isometric view of the container of Figure 13a in a folded
condition;
Figure 13e is a front view of the folded container of Figure 13d;
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Figure 13f is a side view of the folded container of Figures 13a;
Figure 13g is a front view of the container of Figure 13a in expanded
condition;
Figure 13h is a rear view of the container of Figure 13g;
Figure 13i is a top view of the container of Figure 13g;
Figure 13j is a bottom view of the container of Figure 13g;
Figure 13k is a side view of the container of Figure 13g;
Figure 14a is an isometric view of a further alternate embodiment of soft-
sided insulated
container to that of Figure la showing thermal storage elements in a partially
inserted condition;
Figure 14b is a perspective view of the container of Figure 14a with thermal
storage
accommodations open;
Figure 14c is a perspective view of the container of Figure 14a showing the
bottom;
Figure 14d is a front view of the container of Figure 14a;
Figure 14e is a rear view of the container of Figure 14a;
Figure 14f is a top view of the container of Figure 14a;
Figure 14g is a bottom view of the container of Figure 14a;
Figure 14h is a left hand side view of the container of Figure 14a, the right
hand view
being the same but of opposite hand;
Figure 15a is a front side perspective view of a further alternate embodiment
of soft-
sided insulated container to that of Figure la;
Figure 15b is a rear side perspective view of the alternate embodiment of
Figure 15a;
Figure 15c is a front side perspective view of the insulated container
assembly of Figure
15a showing the insertion of two thermal storage elements;
Figure 15d is a front view of the container assembly of Figure 15a;
Figure 15e is a rear view of the container of Figure 15a;
Figure 15f is a top view of the container of Figure 15a;
Figure 15g is a bottom view of the container of Figure 15a;
Figure 15h is a left hand side view of the container of Figure 15a, the right
hand side
view being the same but of opposite hand;
Figure 15i is a cross-sectional view of the container of Figure 15a taken on
section 151 ¨
15i of Figure 15h;
Figure 15j is a cross-sectional view of the container of Figure 15a taken on
section 15j-
15j of Figure 15d;
Figure 16a is a plan view of a bendable thermal storage element for the
container of
Figure 15a,
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Figure 16b is an alternate tri-folding bendable thermal storage element for
the container
of Figure 15a;
Figure 16c is an alternate four-part folding bendable thermal storage element
for the
container of Figure 15a;
Figure 17a shows a perspective view of an alternate embodiment of soft-sided
insulated
container to that of Figures 10a to 10n in a closed position;
Figure 17b shows a perspective view of the container of Figure 17a in a
partially open
condition;
Figure 17c shows a perspective view of the container of Figure 17a in a fully
open
condition in which a first container portion and a second container portion
are
side by side;
Figure 18a shows sideways insertion of a thermal storage gel pack member into
an
externally accessible slot in the top wall panel of the container of Figure
17a;
Figure 18b shows sideways insertion of a thermal storage gel pack member into
a slot in
a partition of the container of Figure 1713;
Figure 18c shows sideways insertion of a thermal storage gel pack into an
externally
accessible slot in the bottom wall panel of the container of Figure 17c;
Figure 19a is a right hand side view of the container assembly of Figure 17a,
Figure 19b is a front view of the container of Figure 19a;
Figure 19c is a left hand view of the container Figure 19a;
Figure 19d is a rear view of the container of Figure 19a,
Figure 19e is a top view of the container of Figure 19a; and
Figure 19f is a bottom view of the container of Figure 19a.
Detailed Description
The description that follows, and the embodiments described therein, are
provided by
way of illustration of an example, or examples, of particular embodiments of
the principles of the
present invention. These examples are provided for the purposes of
explanation, and not of
limitation, of those principles and of the invention. In the description, like
parts are marked
throughout the specification and the drawings with the same respective
reference numerals. The
drawings are substantially to scale, except where noted otherwise, such as in
those instances in
which proportions may have been exaggerated in order more clearly to depict
certain features of
the invention.
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For the purposes of this description, it may be that a Cartesian frame of
reference may be
employed. In such a frame of reference, the long, or largest, dimension of an
object may be
considered to extend in the direction of the x-axis, the base of the article,
where substantially
planar, may be considered to extend in an x-y plane, and the height of the
article may be
measured in the vertical, or z-direction. In other contexts, the z-direction
may be the through
thickness of a substantially planar panel where the major dimensions lie in
the x- and y-
directions. The largest container panels herein may be designated arbitrarily
as either the front
and rear sides, or top and bottom sides, faces, or portions of the container.
Similarly, the closure
member, or opening is arbitrarily designated as being at the top, and the base
panel is designated
as being at the bottom, as these terms may be appropriate for the customary
orientation in which
the objects may usually be found, sold, or employed, notwithstanding that the
objects may be
picked up and placed on one side or another from time to time at the user's
choice. It should also
be understood that, within the normal range of temperatures to which human
food and human
touch is accustomed, although the term cooler, or cooler container, or cooler
bag, may be used,
such insulated structures may generally also be used to aid in keeping food,
beverages, or other
objects either warm or hot as well as cool, cold, or frozen.
In this specification reference is made to insulated containers. The adjective
"insulated"
is intended to be given its usual and normal meaning as understood by persons
skilled in the art.
It is not intended to encompass single layers, or skins, of conventional
webbing materials, such
as Nylon (t.m.), woven polyester, canvas, cotton, burlap, leather, paper and
so on, that are not
otherwise indicated as having, or being relied upon to have, particular
properties as effective
thermal insulators other than in the context of being provided with heat
transfer resistant
materials or features beyond that of the ordinary sheet materials in and of
themselves. Following
from Phillips v. AWH Corp., this definition provided herein is intended to
supplant any
dictionary definition, and to prevent interpretation in the US Patent Office
(or any other Patent
Office) that strays from the customary and ordinary meaning of the term
"insulated". The
Applicant also explicitly excludes cellophane, waxed paper, tin foil, paper,
or other single use
disposable (i.e., not intended to be re-used) materials from the definition of
"washable".
Similarly, this description may tend to distinguish various embodiments of
hard shell
containers from soft-sided containers. In the jargon of the trade, a soft-
sided cooler, or bag, or
container, is one that does not have a substantially rigid, high density
exoskeleton. A typical
example of a container having a hard exoskeleton is one having a molded shell,
e.g., of ABS or
polyethylene, or other common types of molded plastic. Rather, a soft-sided
container may tend
not to be substantially rigid, but may rather have a skin that is flexible, or
crushable, or
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sometimes foldable. By way of an example, which is not intended to be
exhaustive,
comprehensive, exclusive or limiting, a soft-sided cooler may have an outer
skin, a layer of
insulation, and an internal skin, both the internal and external skins being
of some kind of
webbing, be it a woven fabric, a nylon sheet, or some other membrane. The
layer of insulation,
which may be a sandwich of various components, is typically a flexible or
resilient layer,
perhaps of a relatively soft and flexible foam. In some examples, a soft-sided
container may still
be a soft-sided container. It may include a substantially rigid liner, or may
include one or more
battens (which may be of a relatively hard plastic) concealed within the soft-
sided wall structure
more generally, or where hard molded fittings may be used either at a
container rim or lip, or to
provided a base or a mounting point for wheels, but where the outside of the
assembly is
predominantly of soft-sided panels. Once again, this commentary is intended to
forestall the
adoption by the US Patent Office, (or any other Patent Office), of an
interpretation of the term
"soft-sided" that diverges from the ordinary and customary meaning of the term
as understood
by persons of ordinary skill in the art in the industry, and as used herein.
Figures la ¨ le, 2a ¨ 2f, and 3a illustrate a container assembly, indicated
generally as 20.
Container assembly 20 is a soft-sided insulated container, and may be a
collapsible soft-sided
insulated container. That is, container assembly 20 may be a folding bag or
sack, as indicated in
the collapsed and folded views of Figures lb ¨ le. The bag, or container
assembly, 20, may
have a wall structure indicated generally as 22. Wall structure 22 may be a
soft-sided insulated
wall structure. Wall structure 22 may include a front wall 24, a rear wall 26,
a bottom wall 28 a
left-hand side wall 30 and a right hand side wall 32. It may also include a
further wall panel or
member, or extension, such as may have the form of a closure member, or top
wall, or lid 34.
The front, rear, left hand and right hand side wall panels may be arranged
about the periphery of
the base or bottom wall panel such that they co-operate to define five sides
of an open topped-
box or chamber, that chamber being indicated in Figure 3b generally as 36. The
entire structure
may have a carrying handle, 35, which may be suitably located at an upper
portion of structure
22 such as at the juncture of the lid 34 and the rear wall 26. The carrying
handle may have a
releasable handle clip, that may permit the handle to snap to a mating ring
fitting either across
the bag on the ridge of the hinge (e.g., when empty), or diagonally across lid
34 (e.g., such that
the handle will be above the center of the enclosure when full, so that the
bag may tend to hang
"square").
Wall structure 22 may fold in the manner of a paper bag. That is the left and
right hand
side walls 30, 32 may be bi-folding along their vertical centerline, as at 45,
to have folding
portions 40, 42, which may be trapezoidal; and a triangular bottom fold, or
folds, 44, 46. On
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folding, bottom wall 28 may fold into two halves, as at 50, 52 along central
fold line 55. When
the bag folds, the front and rear walls move toward each other.
It may be that in either a partially full condition, as in Figures la and lb,
or fully
collapsed condition, as in Figures lc, le, and id, lid 34 may reach over, and
over-fold, the upper
margin 58 of from wall 24, such that lid 34 lies flat against front wall 24.
Front wall 24 may
have a releasable securement 48, such as may have the form of a fabric hook-
and-eye patch such
as sold under the trade mark "Velcro". Similarly the inside margin of lid 34
may have a mating
releasable securement such as may be a mating hook-and-eye fastener patch 38,
seen in Figure
3a, also such as may be "Velcro". Releasable fasteners 48 and 38 mate to
secure lid 34 in the
folded-down configuration. In the Figures such as Figures le, and 2f, other
than the presence of
the accommodation access closure member, the right hand view is the same as
the left-hand view
except of opposite hand. The rear view of the collapsed embodiments is the
same as the rear
view of Figure 2c of the partially expanded or fully expanded conditions.
These additional
views are not shown to avoid duplication.
When the container is full, as shown in Figures 2a ¨ 2f, it may have a
generally
rectangular or cubic, six-sided, box shape, in which the bottom, front, rear,
left and right walls
form five sides of an open-topped box, and lid 34 defines a closure member
that is hingedly
attached to the upper margin of rear wall 26, as at 25, and releasably secured
about the remainder
of the upper lip or rim, or margin of the side 30, 32 and front 24 container
walls by a releasable
securement 62. Releasable securement 62 may be a tracked fastener, and may
have the form of a
zipper. Lid 34 is thereby releasably securable, and is movable between first
and second positions
(i.e., closed and open) to govern access to chamber 36.
In terms of construction, front wall 24, bottom wall 28, rear wall 26 and lid
34 may all be
formed from a continuous strip of material, or layers of materials, as may be
described below.
Left and right hand side walls or panels 30, 32 may then be sewn or otherwise
secured to the side
margins of the larger strip of panel components.
It may be that container assembly 20 has one or more removable thermal storage
members 60. Thermal storage members 60 may be pouches containing phase
changing
exothermic material, or may contain a phase changing brine that may be frozen
and function as
an ice-pack. The term "ice pack" is hereafter used generically either for such
a pouch that
provides cooling or heating. Cooling may be understood to be typical, and may
be taken as the
most common default.
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In the embodiments herein, it may be that thermal storage members 60 are
substantially
flat. Although they may be in some instances bent or curved, they may also be
substantially
planar, having an arc-length, or span, or breadth, or a height L60 (e.g., in
the x-direction) and a
span or arc length, or depth, or width W60 (e.g., in the y-direction) that are
of generally the same
order of magnitude, and a through-thickness t60 (e.g., in the z-direction)
that is much smaller than
either the width or height. The dimension in the x-direction is, for example,
somewhat smaller
than the width W20 of container assembly 20 generally, to fit the space
between left and right
hand side walls 30, 32. The dimension W60 in the y-direction may correspond
to, and be
somewhat less than, the front-to-back dimension of bottom wall 28. Member 60
may be thought
of as a rectangular disc or wafer, or lozenge, like a rectangular or square
relatively thick pancake.
It has a big face defined by the x-direction and y ¨direction major surface,
which is typically the
largest face of the gel pack. It also has a small face or small faces defined
by the through
thickness and either one of the x-direction or y-direction large dimensions.
The small face fits or
slips, or slides, or squeezes, however it may be expressed, through the
externally accessible
opening or slot in the side face of the unit. Once the gel pack is in the
accommodation, the large
face provides the large heat transfer interface surface that contacts the
inside wall membrane and
provides cooling (or heating) to the objects in the chamber. The direction of
insertion can be
thought of as being cross-wise to the direction of dominant heat transfer, the
one being an end-
wise motion in a direction generally lying in the plane or surface, or arc
length, of the object, and
the other being generally normal to the large face.
Although member 60 shown in Figure la is not illustrated as a folding
embodiment,
thermal storage member 60 may be bi-folding, e.g., as shown in the embodiment
of Figures 9a ¨
9c, such as having a first thermal storage portion 64 and a second thermal
storage portion 66
joined by a flexible intermediate portion such as a living hinge 65. The hinge
may not run the
full length, but may leave a portion by which gel can communicate between the
portions. There
may also be a central weld shown at the oval depression 68. Not that the
thickness t60 shown in
Figure 9b is exaggerated relative to the embodiment of Figure la. In
proportion, it would be
about half as thick as shown, and might typically be about 3/8" ¨1/2" (10¨ 13
mm), whereas in a
typical lunch bag, the bag width L20 might be about 8" (20 cm) and the bag
bottom panel depth,
D28, might be about 6" (15 cm).
It may be desired for container assembly 20 to have multiple accommodations
for such
thermal storage members 60 as may be. It may also be desirable for such
thermal storage
members to be removable, so that they may, for example, be placed in the
freezer over-night to
solidify the cooling pack gel, or brine, as may be. They may then be put in
the container the next
CA 2997588 2018-03-07
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day to keep the student's lunch cold or cool. That is, by being removable it
is necessary only to
put the cooling packs, members 60, in the freezer, rather than the entire,
rather more bulky, bag
structure 22. It may also be that the user may wish to remove or introduce the
cooling pack
without necessarily opening the main container, i.e., chamber 36.
To that end, wall structure 22 may have several layers as seen in Figure 3b.
While Figure
3b is of a section of front wall 24, it is intended to be generic in respect
of front, bottom, rear,
and top walls. There may be an external skin 72, a layer of thermal
insulation, 74, and an
internal skin 76. External skin 72 may be a woven or other fabric skin.
Thermal insulation 74
may be an open-cell or closed-cell foam. Internal skin 76 may be a PVC or
other sheet, and may
be opaque. It may be that internal skin 76 is part of an internal liner 70 of
container assembly 20
more generally, that internal liner being secured to the inside of container
assembly 20 about the
upper rim of chamber 36 more generally. Liner 70 may be a seamless liner.
Internal skin 76
may be separate from liner 70. Wall structure 22 may have an accommodation 80
defined
outwardly of skin 76. Accommodation 80 may be located inwardly of insulation
74. That is,
accommodation 80 may be a pouch or pocket or lodging defined between
insulation 74 and the
internal web or skin 76. In Figure 3b, the thickness of Skins 72, 76, and
liner 70 have been
disproportionately exaggerated for the purposes of illustration and easy
understanding. They are
actually thin webs, having a thickness of perhaps 0.1 ¨0.25 mm or 3 ¨ 10 mils.
The outer skin
may be a woven nylon cloth. It may be a scuff or abrasion resistant cloth and
may have an 800
denier or 1050 denier, or similar grade or thickness. By contrast, the thermal
storage element
and the insulation may each be 3/8" (1 cm) thick (+/-).
Accommodation 80 may have an opening 82. Opening 82 may be in the external
wall
portion, or portions, of wall structure 22. Access to accommodation 80 through
opening 82 may
be governed by a closure, or closure member 84, which may be a tracked
fastener, such as a
zipper or male and female mating plastic strips. Wall structure 22 may include
several examples
of accommodation 80, such as indicated as bottom wall accommodation 88, rear
wall
accommodation 86, and front wall accommodation 90. Both rear wall
accommodation 86 and
front wall accommodation 90 may be first or lower accommodations. In an
alternate
embodiment, as shown in Figure 3c, a container assembly 120, which is
otherwise similar to
container assembly 20, may have both lower accommodations, 86 and 90, and
respective rear
and front upper accommodations 92, 94. In that instance the upper and lower
pockets, or
pouches, or accommodations, may be segregated from each other as by a divider,
such as a
welded or stitched seam, or by an internal web or partition. An accommodation
96 may be
formed in lid 34. As shown in the alternate embodiment of Figure 3d, container
assembly 20
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may alternatively, or additionally, have an accommodation, or accommodations,
98 formed in
the left and right hand side walls 30, 32 above the level of the lower
triangular folding portions
or gussets 44, 46. Such a pocket or accommodation 98 may have a generally
horizontal lower
bound 95 such as may be defined by a seam, be it welded or stitched, or an
internal web, as may
be, and may have a separate access opening, governed by a separate closure
member, in this case
shown as zipper 85. In an expanded position or condition, member 60, as
frozen, need not be bi-
folding when installed. However, if the bag is to be folded while member 60 is
in place, a bi-
folding member, or two separate members, may be used in accommodation 98
instead.
The bottom wall accommodation could also be a double accommodation, and the
various
configurations may be mixed and matched as may suit. It is not necessary that
the front and back
(or bottom and lid) have the same number of thermal member accommodations, or
that every
wall have any such accommodation. However it may be convenient for the front
and back walls
to be substantially the same.
In this instance closure member 84 may be a zipper 100 that has a root near or
at the
distal or free margin 102 of lid 34. Zipper 100 may then run along the side
margin 104 (it being
arbitrary which whether the left or right) of lid 34 and continuing on along
that side margin
downwardly along rear wall 26, forwardly along bottom wall 28, and upwardly
again along the
side margin of front wall 24, terminating at, or relatively near the top
margin 58 of front wall 24.
While one single zipper 100 is described in respect of this embodiment, in an
alternate
embodiment, individual, separate zippers could instead be used for each of the
lid, rear wall,
bottom and front wall segments.
Like member 60, accommodation 80 may be generally flat and thin, and opening
82 and
closure member 84 may be correspondingly formed as a slot or slit or high-
aspect-ratio opening
where the length of the slot is more than five times, possibly much more than
five times, its
width, into which a correspondingly substantially flat thermal storage member
60 may be
introduced in a sideways, sliding motion in the direction admitting its
smallest profile cross-
section, that direction being indicated by arrow 'A' in Figure la. That is,
the width of the slot
corresponds to, or admits, the thickness, t60, while the length of the slot
admits one or the other
of the length or width of the thermal storage member.
By way of example, accommodation 90 of front wall 24 may, for the purposes of
description, be considered to lie in a substantially upright or vertical
plane, with the x-direction
being the direction of insertion into (or, conversely, retraction from)
accommodation 90, the y-
CA 2997588 2018-03-07
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direction being the up-and-down direction, and the z-direction being the
through-thickness
direction of front wall 24. In this example, the large dimensions of both the
pocket and the
cooling pack are in the x and y directions, and the thin direction is in the z-
direction. In essence,
each pocket opens along an edge, or side, at a slit that is large enough to
admit the substantially
flat cooling pack when it is slid sideways (in the x-direction) through the
opening (which is a slot
having a height in the y direction and a width in the through-thickness z-
direction). That is, the
cooling pack enters the slot with its smallest end or face or edge leading,
and the slot is sized to
receive it. When in place, though, the largest or major face of the cooling
pack faces, or fronts
on, or lies against, the face of the interior skin or web 76, and, by heat
transfer through web 76,
may tend to cool (or warm, as may be) objects contained within chamber 36. So,
in summary,
the cooling pack is installed (and removed) by sideways motion in the
direction of its smallest
end face, and cooling occurs e.g., by conduction, through its largest face.
Insertion of thermal
storage member 60 into any of accommodations 80 is similar to slipping an LP
into its cover
sleeve, or slipping a CD-Rom or DVD into a DVD player slot. The direction of
insertion is
largely perpendicular to the direction of desired heat transfer. Expressed
differently, the access
opening slot is sized to accommodate a small, side face of the thermal storage
member, while the
largest face of the accommodation, and of largest facial area of the thermal
storage member, face
toward the objects to be cooled.
Since each accommodation 80 is externally accessible, there is no need to open
lid 34 to
install or to remove the cooling (or heating) pack. Rather, the cooling or
heating pack may be
inserted, or removed, independently of access to chamber 36. The installed
position of member
60 is indicated by the phantom outline in Figures 2b, 2c, 2d, and 2e.
For example, the user may prepare a school lunch the night before, place the
lunch in
chamber 36, and then place container assembly 20, without its cooling packs,
in the refrigerator.
At the same time the flat and relatively compact cooling packs, namely thermal
storage members
60, may be placed in the freezer to solidify. The next morning, thermal
storage members 60,
(however many there maybe), may be taken out of the freezer and introduced
into the respective
externally accessible accommodations 80 to keep the contents of chamber 36 of
container
assembly 20, or 120, cool (or warm), without having to open the main lid 34 or
otherwise disturb
the contents of chamber 36. In summary, then, container assembly 20 has one or
more externally
accessible cooling pack accommodations. The accommodation is, or
accommodations are, slots
defining sideways sliding entry-ways formed along an edge or margin of wall
structure and of
the accommodation. The cooling (or heating) packs insert sideways, i.e., cross-
wise to the body
of the bag, through the slots and into the accommodations.
CA 2997588 2018-03-07
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Accommodation 80, in whichever panel or wall or region of wall structure 22 it
may be,
may lie inboard of thermal insulation 74, such that the path of least
resistance to heat transfer is
toward chamber 36, or, equivalently, the path of heat transfer through the
insulation has greater
resistance than the path of heat transfer to the interior of chamber 36.
Moreover, there may be a
web or skin, or fabric, or sheet 108 lying on, or forming, the outside wall of
accommodation 80,
so as to form a smooth surface between insulation 74 and the outside wall of
accommodation 80.
It may be that sheet 108 has a reflective surface, such as a metallic or
metallicised reflective
surface facing toward accommodation 80, and, when in use, toward and thermal
storage member
60 place in accommodation 80.
The entry of accommodation 80 is defined by 82. The far end of each
accommodation 80
may be defined by the junction of inside skin 76 with external skin 72 at the
opposite side
margin of the container assembly, where the wall panels are joined together,
typically by sewing
inside the vertical binding edge strips, as at 122, 124 on the left and right
hand margins of the
bag respectively. The other two sides or edges, or boundaries of accommodation
80 which run
parallel, or generally parallel, to the direction of insertion, may be defined
by lines of stitching.
The lines of stitching may also define the lines of folding of container
assembly 20 as at 110 at
the junction of front wall 24 with bottom wall 28; as at 112 at the junction
of rear wall 26 with
bottom wall 28; or at 114 the top of rear wall 26 at the transition to lid 34,
effectively as a flap
that folds in the manner of a fabric hinge. There may also be stitching or
welding at a mid-level
height as at 116 in front wall 24 or 118 in rear wall 26 where there is more
than one thermal
storage member accommodation in either or both of front wall 24 and rear wall
26. There need
not be as many as six or eight (if also in the side walls) such accommodations
80, and the
number of ice packs or warming packs need not equal the number of
accommodations, although
it may be convenient that they be equal. It is also possible that there may be
more than one
thermal storage member in each accommodation. It is not necessary that there
be stitching
penetrating all of the layers of the assembly, or that the laterally running
connections be made
with stitching. They could, for example, be made by being heat sealed
together.
It is not necessary that all of accommodations 80 be the same size, or that
all thermal
storage elements 60 be the same size, or the same type. Nonetheless, it may be
convenient that
all of the thermal storage elements be the same so that they may be
interchangeable.
The folding of wall structure 22 in the paper-bag style may occur in either of
two modes.
In a first mode, shown in Figure le, the bottom panel is also folding, such
that it folds along a
CA 2997588 2018-03-07
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transversely running central fold, 55, (seen in Figure 2e) that folds upward
and inward toward
the side walls. This may occur where bottom wall 28 does not have an internal
batten or floor
stiffener; or does not have a single-slab rigid thermal storage element; or
the thermal storage
compartment is empty; or the bottom compartment does have a bi-folding thermal
storage
element or has two smaller thermal storage elements placed side-by-side to
permit folding on
central fold 55. In the alternate embodiment of folding, such as where there
is a rigid floor
batten, or there is a rigid single-piece thermal storage member that does not
fold, the rear panel
may fold as at crease 54 with the bottom margin 56 of rear wall 26 folding up
behind the rest of
rear wall 26. In this embodiment, bottom panel 28 more or less pivots such
that half 52 of
bottom wall 28 lies generally parallel to and behind the bottom margin 56 of
rear wall 26.
In a further alternative, accommodation 80 may be an internal liner, such as
may have a
generally cylindrical form, like a tube of fabric or plastic. The tube is
flattened, and one end is
closed by being sewn into the seam at the far end of the tube, as at piping or
binding 124. The
near end of the tube has one side sewn to external skin 72, and the other side
sewn to internal the
inside edge of at opening 82, as at the seam at piping or binding 122. The
inside face of the liner
may be open to breath, such as if made of netting, or may be an impermeable
sheet forming a
barrier to air and water. In this context, skin 76 may be the inside of the
cylindrical liner, and
skin 108 may be the outside. Either or both of skin 76 and liner 70 may be
transparent or
opaque. In the embodiment illustrated, skin 76 is opaque and liner 70 is
transparent.
In the embodiment of Figures 4a ¨ 4e, there is a soft-sided insulated
container assembly
150 having a wall structure 152 that includes a bottom wall 154, a front wall
156, a rear wall
158, and a top wall, or lid, or cover 160. Container assembly 150 may be of
the same, or
substantially the same construction as container assemblies 20 and 120, but
may tend to be
smaller. In this embodiment, container assembly 150 may only have front wall
and rear wall
accommodations, 162, 164. It may also have a bottom wall accommodation 166,
although this
accommodation may smaller than accommodations 162, 164. Access to the various
accommodations is governed by closure member 168 which may have the same
construction as
closure member 84, above. It may employ a single size flat, thin thermal
storage member 170,
which may be a rigid, i.e., non-folding member, is provided to seat in the
pouch or pocket of the
accommodation. Container assembly 150 may not necessarily be designed to fold
flat in the
manner of a paper bag. The fully expanded configuration of container assembly
150 is shown in
Figures 4c, 4d, 4e, and 4f. As before, thermal storage member 170 may be of
the same
construction as described for thermal storage member 160, but it may be
smaller, whether 5" x
7" or 4" x 6", or a similar ratio, and of the same thickness as before. The
actual size will depend
CA 2997588 2018-03-07
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on the size of container assembly 150 more generally. In an alternate version
as suggested by
Figures 8a, 8b, and 8c, member 170 may not necessarily be a folding member,
and it may not
necessarily have the central welded depression 68.
Figures 5a ¨ 5e pertain to another embodiment of soft-sided insulated
container assembly
180 that has the form of a tote bag. That is, a tote bag has a base 182 that
is rectangular,
typically with an aspect ratio of length to depth of the order of 3:1 or
lower, as seen in Figure 5e.
The top of the tote bag is of an higher aspect ratio than the base, such that
although the periphery
may be constant, or roughly constant, the bag tapers upwardly outward when
seen in side view,
as in the respective side views of front wall 184 and rear wall 186 of Figures
5b and 5c, yet has
an inward taper when seen in the end view of Figure 5d, such that at the level
of the closure 188
the closure member 190 has a long thin aspect ratio, as suggested by Figure
5f. As its name
implies, the tote bag can be carried over the shoulder by means of handles or
straps 192, 194.
The side walls of the tote bag may not have a distinct transition to the end
walls, where the
margins of the side walls are brought together, on a rounded or pyramidal
shape, and sewn on a
common seam from bottom to top. Accordingly, container assembly 180 has a
closure 196 that
is mounted roughly square with an end margin 198 of the rectangular base 182,
and that governs
access to the thermal storage element accommodations. The through-thickness
cross-section of
the wall structure of container assembly 180 is substantially the same as that
of container
assembly 20 shown in Figure 3b, and includes accommodations 80 as before,
although of a
different size. A large thermal storage member 200 slides sideways into the
slot or
accommodation defined within the wall structure, in the same manner as before.
The tote bag
may not necessarily be designed or intended to fold. In the case where the
tote bag has a hard
base wall, 202, it may be that an alternate access may be provided as at 204
in Figure 5g, so that
the thermal storage member may sit on top of the hard floor panel, beneath the
inside skin of the
liner of the inside of the tote bag more generally. In this configuration, the
external access
opening is defined not at the edge of the panel (i.e., at the seam) but in the
body of the panel
distant from the seam. When the access slot is in the midst of a panel, there
could be
accommodations 80 to either side of the access opening, governed by a single
closure member.
The approximate position of thermal storage member 200 as installed is
suggested by the
phantom outline in Figures 5b and Sc.
In the embodiment of Figure 6a, there is a soft-sided insulated container in
the form of a
lunch box, 220. It may not be intended to be collapsible, and, in some
embodiments, may
include a substantially rigid high density plastic internal tub or liner to
prevent crushing of the
lunch box. Lunch box 220 may be a generally rectangular, six-sided box having
a bottom or
CA 2997588 2018-03-07
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back wall 222, an upstanding peripheral wall 224 that has a pair of long side
portions 226, 228,
and a pair of short side end portions 230, 232. The peripheral wall 224 and
back wall 222 co-
operate to define the body of a five-sided open topped box. Front wall 234
defines the top, lid,
or closure of the box, and is connected to the main body of the box by a
fabric hinge 236
mounted to the upper margin of long side wall portion 226. A peripheral
tracked closure
member, such as may have the form of zipper 238 provides releasable securement
of the lid to
the body of the box. The lid is movable between a closed position and an open
position to
govern access to the internal chamber. In this arrangement, while the proximal
margin 240 of
front wall 234 is mounted to the hinge, the distal margin 242 has an access
opening governed by
thermal storage access opening closure member 244, which, again, may be a
zipper. Closure
member 244 is movable to permit the introduction or extraction of thermal
storage member 250
into the slot accommodation formed in the movable lid. Similarly, the rear or
back wall 222 has
a closure member 246 that governs access to a similar accommodation in the
back wall. The
wall construction of lunch box 220 is, once again, substantially the same, or
the same, as shown
in Figure 3b, although either the front wall or the rear wall may include a
stiffening batten
mounted with or to the insulation outside of the thermal storage member
accommodation.
Thermal storage member 250 is a substantially planar, flat member of a size
corresponding to the
size of the major, or largest, walls of the container namely the front and
back walls 234 and 222
respectively. Again, the thermal storage member is disk-like, and is inserted
sideways into the
slot mounted along a margin of the container that admits the small, narrow,
end face of member,
much like an LP sliding into its cover. The major heat transfer face is then
the large face of
member 250. Carrying handles 252 and 254 are provided on the front and end
faces of the lunch
box. As before with container assemblies 20, 120, 150 and 180, the thermal
storage member is
externally accessible, and can be installed or removed without opening the
lunch box or
disturbing its contents. Thermal storage member 250 is shown in Figures 7a, 7b
and 7c, with the
relative length, depth, and through thickness shown as L2505 W250, and t250.
Member 250 need
not be a foldable or bendable member.
Figures 10a ¨ 10e, 11a, 11b, and 12a ¨ 12e show alternate embodiments of lunch
boxes
to that of Figure 6a. In Figures 10a ¨ 10e, ha and 11b, a soft-sided insulated
container in the
form of a lunch box 320 is substantially the same as the lunch box of
container assembly 220,
except that assembly 320 is expandable, as by unzipping peripheral zipper,
which allows a
central section to expand. In Figures 12a ¨ 12e, container assembly 290 has a
peripheral zipper
292 and an expanding central section 284, and is substantially the same as
container assembly
320, except that the expandable section of container assembly 320 is
immediately next to the
movable lid of front wall 332, rather than base wall 334. By contrast, in
Figures 12a ¨ 12e,
CA 2997588 2018-03-07
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container assembly 290 has an expanding central section 284 that is
immediately next to base
wall 222, and distant from front wall 234. Other than this difference, and the
differences in
construction necessarily flowing from it, the description of assembly 290 may
be taken as being
substantially the same as that of assembly 320. One may note that, as with the
skin thicknesses
in Figure 3b, the thicknesses of the various skins in Figures ha and lib are
shown
disproportionately thick for the purpose of ease of illustration and
understanding. They are of
the thicknesses of Nylon and PVC membranes or cloths, as may be.
Referring to Figures 10a ¨ 10e, and by way of a general overview, a soft-sided
insulated
container assembly is indicated generally as 320. Container assembly 320 has a
body that
includes a first, or main, portion, 322, and a second part or portion, 324,
that co-operates with
first portion 322. Typically, the main portion or body 322 has a wall
structure, or outer casing,
326 that defines an internal volume, or cavity, receptacle, or chamber, 328,
however it may be
termed, for receiving objects such as may be desired to be kept cool or warm.
Second portion
324 may define a lid 330 that is hingedly mounted to first portion 322, lid
330 being movable
between a closed position and an open position, thereby governing access to
chamber 328.
Container assembly 320 may be a lunch box, such as may frequently be used by
children to take
their lunches to school. Such a lunch box is not typically an overly large
item like luggage for
travelling abroad, but is rather a small, hand portable item. The largest
dimension (in the x-
direction) may be of the order of less than one foot (30cm), the breadth (in
the y-direction) may
be of the order of 7 to 10 inches, and the depth in the through thickness (in
the z-direction) may
be less than the width.
Container assembly 320 may have insulated wall panels, namely a first or front
panel
332, a second or rear or bottom panel 334, and a peripherally extending
sidewall, or sidewall
assembly 336. Front panel 332 may define lid 330. Typically, front panel 332
and rear panel
334 are substantially planar and may be square or rectangular (being longer in
the x-direction
than the y-direction). In the closed position of lid 330, front panel 332 and
rear panel 334 may
tend to lie in spaced-apart parallel planes.
Peripherally extending sidewall 336 extends between, and joins, front panel
332 and rear
panel 334. Peripherally extending sidewall 336 may have four side wall
portions such as may be
identified as 338, 340, 342, and 344. These four sidewall portions may
likewise be square, or
rectangular, and stand away from panel 334, such that, in combination, items
332, 338, 340, 342
and 344 define five sides of an open topped box. Wall portions 338 and 340 may
be designated
CA 2997588 2018-03-07
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as first and second opposed "long sides"; wall portions 342, 344 may be
designated as first and
second opposed "short sides". The choice of front and rear, left and right, is
arbitrary.
For the purposes of this description the second long side wall portion 340 may
be
understood as the panel having an upper margin to which lid 332 is attached,
typically hingedly
attached as by flexible fabric hinge 346, and first long side wall portion 338
is the panel opposed
to, and distant therefrom. Lid 332 may be releasably secured to the upper
margins of wall panel
portions 336, 340, 342 by a closure member 348, which may be in the nature of
a tracked
fastener, such as a zipper 350.
Although other embodiments can be made, container assembly 320 may have the
general
form of a six-sided box. A first lifting member, in the nature of a first
carrying handle 352 may
be mounted to the front face of lid 332. A second lifting member, in the
nature of a second
carrying handle 354 may be mounted to the short end wall portion 344 of
peripherally extending
sidewall 336, which, in the context of being carried by handle may be
designated the "top" of
container assembly 320. Handle 354 may have a releasable clasp that permits
handle 354 to be
attached to other objects. Typically, when container assembly 320 is being
carried by handle
352, or rested on its back as in use, front and rear (or bottom) panels 332,
334 may lie in x-y
(i.e., horizontal) planes, and may lie in x-z (i.e., vertical) planes when
container assembly 320 is
carried by handle 354.
Panel portions 338, 340, 342 and 344 may be made from a single piece of
insulated
material and may be formed of a continuous web, or webs, running around the
side edges, or
margins, of front panel 332 and rear panel 334, and may be fastened thereto by
sewing, gluing or
some other suitable fastening means.
In alternative embodiments, outer casing 326 may have either less than four,
or more than
four, predominantly upright panels (not shown). For example, outer casing 326
may be
configured to have one continuous panel defining a round wall, thereby forming
a right cylinder,
or some other generally rounded shape.
Cross-sections of the structure are shown in Figures ha and lib in respective
contracted
or collapsed and expanded positions. The wall structure of rear or bottom wall
or panel 334 and
front or top panel 332 may include an outer covering 302, a layer of thermal
insulation 304, and
an inner skin or covering 306. Whether there is an inner skin or covering 306
or not, there may
be an internal heat transfer barrier such as a radiation shield 308. Radiation
shield 308 may be
CA 2997588 2018-03-07
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pliable, and may include a shiny, reflective material or coating. In one
embodiment that flexible
shiny material may be sold under the brand name "Thermaflect". Panels 332, 334
may have an
externally accessible internal pouch, pocket, or retainer 356, which may have
the form of netting
or of a breathable fabric, or may be an impermeable sheet, like internal skin
76. Retainer 356
defines an accommodation 80 for receiving a thermal storage member 250.
Container assembly
320 also has lifting fittings, such as D-rings 358 by which a shoulder strap
may be attached such
that container assembly 320 may be carried over the shoulder, or by which
container assembly
320 may be attached to other objects. In addition, handle 352 may be mounted
to the exterior
face of lid 332 as indicated.
As illustrated in Figures 10e and 10k, in moving between the expanded and
contracted
positions front wall panel 332 moves in linear translation in the z-direction
relative to rear panel
334. Alternatively expresses, the z-direction is the direction normal to rear
panel 334, where rear
panel 334 and front panel 332 are both substantially planar and extend in
respective x-y planes.
The difference in overall height, or through-thickness, of the container
compartment, chamber
328, is the difference between the overall through thickness of the unit
expressed as h20 in Figure
10k, and h320 in Figure 10e. The expanded thickness h320 of container assembly
320 may be in
the range of 3/2 to 5/2 hno, and in one embodiment may be roughly double h320,
+/- 20%.
Peripherally extending sidewall 336 may have a first portion 360 and a second
portion
362. First portion 360 has a first margin 364 that is attached to the adjacent
margin 366 of rear
panel 334. First portion 360 extends away from margin 366 toward front panel
332,
predominantly in the z-direction. First portion 360 may have an external skin
368, which may be
made of a wear resistant material, such as nylon (t.m.) and may be a woven,
wear-resistant nylon
fabric. First portion 360 may also have an internal skin 370, and a layer of a
thermal insulating
material 372 such as a flexible foam. First portion 360 may terminate at a
second margin 374,
which may be an upper margin thereof distant from margin 366 of rear panel
334.
Second portion 362 has a first margin 376 that is attached to the adjacent
margin 378 of
front panel 332. Second portion 362 extends downwardly away from margin 378
toward rear
panel 334, predominantly in the z-direction. Second portion 362 may have an
external skin 380,
which may be made of a wear resistant material, which may be nylon (t.m.) and
which may be a
woven, wear-resistant nylon fabric. Second portion 362 may also have an
internal skin 382, and
a layer of a heat flow resistant insulating material 384 such as a flexible
foam mounted between
external skin 380 and internal skin 382. Second portion 362 may terminate at a
second margin
386, which may be a lower margin thereof distant from margin 378 of rear front
panel 332. The
CA 2997588 2018-03-07
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joining of second portion 362 to front panel 332 may be by way of zipper 350
along three
margins, and by hinge 346 along the fourth margin of front panel 332. The
overall respective
lengths of first portion 360 and second portion 362 in the z-direction may not
be equal. In the
embodiment illustrated, first portion 360 may be substantially longer in the z-
direction than
second portion 362.
Peripherally extending sidewall 336 may include a securement 388 mounted
releasably to
retain second margin 386 of second portion 362 in its most proximate position
to second margin
374 of first portion 360, as shown in Figures 10a ¨10h. Securement 388 may
have the form of a
tracked fastener 390 extending about the periphery of container assembly 320.
In one
embodiment the tracked fastener is a zipper 392. Tracked fastener 390 may
include first and
second mutually engaging fastener portions 394, 396. Fastener portions 394,396
may be mating
halves of a zipper. It may further include an engagement and disengagement
actuator, such as
zipper car 398 in the embodiment illustrated.
Tracked fastener first portion 394 may be mounted to second margin 374 of
first portion
360, typically by being sewn thereto. Tracked fastener second portion 396 may
be similarly
mounted to second margin 386 of second portion 362. Tracked fastener 390 may
have a first end
400 and a second end 402 distant therefrom. First end 400 may be designated as
a permanently
joined or permanently closed end. There is a transition section 408 commencing
at first end 400,
in which the zipper halves diverge from each other, transition section 408
ending where the
zipper halves reach margins 374 and 386 respectively. There is then a full lap
of zipper around
the periphery after the end of transition section 408. First end 400 may be
mounted to the
expandable web portion of peripherally extending sidewall 336. When tracked
fastener 390 is in
the open condition, as in Figures 101 ¨ 10n, the actuator, zipper car 398, is
closely adjacent to
first end 400. When tracked fastener 390 is in the closed position of Figures
10a ¨ 10h, zipper
car 398 is closely adjacent to second end 402. In the embodiment shown,
tracked fastener 390
has a length that exceeds the total length of the periphery of container
assembly 320 as measured
around one lap, or cycle, or full turn, of peripheral sidewall 336. Thus in
the process of closing
the actuator, zipper car 398, moves through more than an entire lap of
container assembly 420.
When closed, tracked fastener 390 closes over itself, such that in the closed
position first end 400
is concealed underneath, or inside of, that portion of tracked fastener 390
leading up to second
end 402.
Peripherally extending sidewall 336 also includes an intermediate portion,
identified
generally as 410. Intermediate portion 410 may be a continuous web, which may
be a
CA 2997588 2018-03-07
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continuous nylon (t.m.) web that extends the full distance around the
periphery of container
assembly 320. A first margin 412 of portion 410 is permanently affixed to
second margin 374 of
first portion 360 of peripherally extending sidewall 336, typically by sewing.
Similarly,
intermediate portion 410 has a second margin 414 attached permanently affixed
to second
margin 386 of second portion 362 of peripherally extending sidewall 336.
Portion 410 is
flexible, such that it can fold or collapse from the extended, substantially
straight and vertical
position shown in Figure 10b, to the folded or collapsed position shown in
Figure 10j.
Closed end 400 of tracked fastener 390 is mounted to intermediate portion 410
at a first
location, indicated as 404, in the midst thereof The branches of second end
402 are mounted,
respectively, to margins 374 and 386 as indicated at locations 406 and 408
respectively. When
the actuator follows tracked fastener 390 about container assembly 320, it
draws portions 394
and 396 together, with intermediate portion 410 folded inwardly thereof.
Intermediate portion 410 may also include a heat transfer barrier 420, which
may include
a first heat transfer resistance or obstacle or barrier 424 which may be a
layer of insulative
material, such as insulating foam layer 430; and a second heat transfer
resistance or barrier in the
form of a skin, or membrane or web (which may be applied to layer 424, or may
be separate
therefrom) with a radiative surface treatment such as may enhance its
reflectivity, and hence its
resistance to radiative heat transfer, identified as a radiation shield 422.
Layer 430 is flexible,
and can fold or collapse to permit container assembly 320 to move between the
expanded and
collapsed positions shown. Layer 430 may also be secured at the lip of the
container assembly at
418, and may at the margin of rear panel 334 as well, as indicated at 416. The
second wall
defined by intermediate portion 410 lies inwardly of the wall defined by
portion 336. Portion
410 is foldable, or collapsible such that when portion 336 folds, portion 410
can also fold.
Portion 410 may be secured at the lip of the various sidewall portions, as
indicated at 418.
Radiation shield 422 may also define the skin of the inner wall of container
assembly
320, facing inwardly into chamber 328. Container assembly 320 may also have a
further
additional inner liner 432, lying inside of thermal barrier 420, such as a
folded seamless liner,
whether opaque or transparent. In the embodiment shown the radiation shield
422 surface of
thermal barrier 420 is made of a metalicized plastic with a reflective
surface, and performs both
the function of a radiation shield and of the container inner wall surface
layer or skin, and liner
432 is transparent. In some embodiments liner 432 may be removable, as for
washing.
CA 2997588 2018-03-07
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In either assembly 320 of Figures 10a ¨ 11b, or of assembly 290 of Figures 12a
¨ 12e,
motion from the contracted position to the expanded position occurs in linear
translation in the z-
direction normal to the rear panel. As seen, there is a soft-sided insulated
lunch box container
having a front wall, an opposed back wall, and a peripheral sidewall wall
extending between and
connecting said front wall and said back wall. The front wall, back wall and
peripheral sidewall
cooperatively define a chamber within the container. The front wall is movable
in a direction
substantially normal to the back wall between a first position and a second
position. The
peripheral sidewall is expandable in the normal direction to permit the front
wall to move
between the first and second positions. The container has an expansion
governor. The
expansion governor has the form of a tracked fastener that extends more than a
full cycle about
the peripheral sidewall. A thermal barrier is mounted inwardly of the
peripheral sidewall. The
thermal barrier is deformable to accommodate movement of the front wall
between the first and
second positions.
The thermal barrier may include a radiation shield. The thermal barrier may
include a
pliable layer of thermal insulation. The thermal barrier may include both a
radiation shield and a
pliable layer of thermal insulation. The layer of thermal insulation may be
located between the
peripheral sidewall and the radiation shield, such that the radiation shield
faces inwardly into the
chamber. The tracked fastener may include a zipper. The zipper may have a
first set of teeth
mounted proximate to the first side wall, and a second set of teeth mounted
more distant from the
first side wall, such as to the margin adjoining the other side wall, and,
when the zipper is zipped
together, the peripheral sidewall is concealed from view by the zipper. The
zipper has a first end
and a second end. The zipper car moves away from the first end and toward the
second end as
the zipper is zipped up. When the zipper is zipped up, the first end of the
zipper is concealed
from view by the closure of the zipper itself As noted, the zipper extends
over more than the
full periphery of the peripheral side wall such that, in closing, the zipper
closes over itself. The
layer of thermal insulation is located between the peripheral sidewall and the
radiation shield,
such that the radiation shield faces inwardly into the chamber.
In the embodiment of Figures 13a ¨ 13k, there is a soft-sided insulated
container or
container assembly, 440, that is substantially the same as soft-sided
insulated container assembly
20, and has substantially the same features of construction, except insofar as
container, or
container assembly, 440 is a larger cooler, such as may be a "12-can" cooler
as opposed to a
lunch sack or lunch bag as in assembly 20. Accordingly, container assembly 440
may have
different aspect ratios of height to width or length (i.e., z-dimension to x-
dimension); and a
different ratio of width (or length) to depth (i.e., x-dimension to y-
dimension). Typical aspect
CA 2997588 2018-03-07
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ratios and dimensions may be roughly x:z:y of 12:10:6. Thermal storage
elements 60 of
assembly 440 may be correspondingly larger, too, and may also have a different
aspect ratio
reflecting a greater relative length for insertion into the longer internal
slots of wall structure
442. Additionally, lid 34 may include an auxiliary retainer, such as an
elastic strap 444. Handle
35 is replaced by a carrying strap or shoulder strap 446, and the end walls
may include mesh
pockets 448. As shown in the drawings, cooler assembly 440 is collapsible or
foldable, and has
retainers, or securements, in the form of straps 436 that engage mating
members 434 located on
rear wall panel 26.
In the embodiment of Figures 14a ¨ 14h, there is a soft-sided insulated
container
assembly that has the general form of a knapsack, or rucksack, or back-pack,
or pack assembly
450. It is of substantially the same wall construction as described above.
However, it has a wall
structure 452 that has the form of a bag with a generally rounder-cornered
form than the more
rectangular containers described above. As with back packs generally, and
unlike some of the
embodiments described above, the major dimension of a knapsack tends to be its
height, with a
width that is typically 1/2 to 3/4 of the height, and a depth in the direction
perpendicular to the
wearer's back that is typically 1/5 to 1/3 of the height of the pack. There is
a base or bottom
wall, or bottom panel 454. An upstanding wall structure is mounted about the
periphery of
bottom panel 454, and includes a back panel or back wall 456 that is worn
against the user's
back, there being associated left and right hand shoulder straps 458, 460
provided for this
purpose. There are also left and right hand sidewalls or panels or members
462, 464, and a main
or front panel 466, all of them being joined together at corner seams to
define wall structure 452
more generally. The upper margins of walls or panels 456, 462, 464 and 466
define an opening
470 of the bag through which to place or retrieve objects held within the main
internal cavity or
chamber of pack assembly 450. As described above, the internal chamber may
have a liner wall,
such as may be water proof. Pack assembly 450 may have a closure member, or
wing, or lid 468
connected at a hinge 472 to the upper margin of back panel 456, with the three
remaining edges
of the opening, and having a main closure, namely lid 468. Lid 468 is movable,
and governs
access to the interior of the bag. As indicated, the lid need not be flat, but
could have a rearward
(i.e., toward the rear as the wearer is walking forward) slope.
Pack assembly 450 also has a second access member, or members, 480. Although
access
member 480 could have individual segments corresponding to each of the
sidewalls 462, 464
and front wall 466, in the embodiment shown there is a closure member, that
closure member
being shown as a single tracked fastener, such as may be in the form of a
zipper 478 that
traverses sidewalls 462, 464 and front wall 466. This tracked fastener may be
spaced
CA 2997588 2018-03-07
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downwardly the main closure, i.e., zipper 474, of pack assembly 450. In the
embodiment shown,
it is spaced about 1/5 to 1/4 of the way down the wall of the bag, and runs
generally parallel to
the zipper of the lid. It may bear a resemblance to a fish gill, and serve a
similar purpose. That
is, when open it gives access to accommodations such as internal slots 482,
484, 486 of the same
general arrangement and construction as accommodations 80 in container
assembly 20.
However, as understood from the partially inserted condition of Figure 14a,
and from the
phantom lines in Figures 14d and 14h, the direction of insertion is up-and-
down, i.e., vertical
rather than horizontal as in, for example, assemblies 20 and 440. That is, the
thermal storage
member 60 is still inserted side-ways in the slot, but the direction of
insertion is up-and-down,
rather than cross-wise. As in each of the foregoing examples, the slot is
externally accessible,
and when installed, the insulation of the wall lies outwardly of the largest
face of thermal storage
member 60. It may be noted that pack assembly need not have a thermal storage
element in wall
456 that bears against the back of the wearer.
Pack assembly 450 may also have a bottom wall thermal storage accommodation,
as
indicated at 490, governed by a closure member such as laterally running
zipper 492. The
direction of insertion in this case is front-to-back. Finally, pack assembly
450 may include side
mesh pockets 494, 496, and a main wall elastic strap 498.
A further alternate container assembly 500 is shown in Figures 15a ¨ 15j and
16a ¨ 16c.
In this embodiment container assembly 500 has a wall structure 502 that
includes base or bottom
wall or wall panel 504 and an upstanding peripheral sidewall 506 that extends
upwardly from
bottom wall panel 504. An internal chamber 510 is defined inside wall
structure 502. The
assembly has top wall or top panel 508 that defines a closure member movable
to govern access
to internal chamber 510. The upstanding peripheral wall of wall structure 502
generally has a
front wall panel 512, a rear wall panel 514, a left end portion 516 and a
right end portion 518. It
may be noted that end portions 516 and 518 are rounded, such that, in cross-
section, the unit has
an oval shape. In one embodiment that oval shape is cylindrical. The assembly
may also have
lifting straps or handles 520. Wall structure 502 may be a soft-sided
insulated wall structure, of
the same general construction as described above. The embodiment shown is not
intended to be
foldable or collapsible or expandable.
Wall structure 502 may be substantially the same as described above, in
respect of having
internal pockets, or pouches, or accommodations 522, 524, 526 in which to
install removable
thermal storage elements, shown as gel packs 530, 532. A layer of insulation
528 is mounted
outboard of accommodations 522, 524, 526 and inside of the external covering
fabric 534; or,
CA 2997588 2018-03-07
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alternatively expressed, when installed, gel packs 530, 532 (and such others
as may be), lie
inboard of insulation 528. As before, the inside liner, or wall, or membrane
540 lies between the
gel packs and objects located in chamber 510. The internal liner segregates
the objects in
chamber 510 from contact by the gel packs, and permits food to be placed in
chamber 510
beforehand, for assembly 500 to be kept in the refrigerator overnight (as may
be) and for the
frozen gel packs to be put in place just before setting out on an outing. As
above, membrane 540
may be waterproof, and may be moderately robust to resists wear. In one
embodiment, assembly
500 may include an internal partition, or divider or divider array, shown
generally as 536. In one
embodiment array 536 may include a wall of insulation 538.
As previously, access to internal thermal storage accommodations 522, 524, 526
is
governed by external closure members, such as slots 542, 544 that are opened
and closed with
zippers (or other tracked fasteners or releasable strips, as may be). While
accommodations 522
and 524 are located at the respective opposite rounded ends of assembly 500,
it may be that
accommodation 526 may be located in front wall panel 512 between the straps of
handles 520.
A noted, unlike the accommodations described above, accommodations 522,524 may
not
be substantially planar, but may instead be non-planar. They may be formed on
a curve, or
curved surface, such as to conform to the substantially circular end arcs of
left and right hand
end walls, as at 546, 548.
It may also be noted that accommodations 522, 524 are remote from each other,
in that
they are located at opposite ends of the enclosed area. It may be that
internal partition array 536
may be movable within chamber 510 such that the relative proportions of the
spaces 550, 552
between the ends to either side of insulated wall 538 may be changed. For
example, they may be
equal, or 1/3: 2/3, or 'A: 'A. The divider or partition array 536 may include
a central space or sub-
compartment 554. Divider or partition array 536 might also be held in fixed
position, e.g., by
being sewn into position at the upper seam of liner membrane 540.
Alternatively there may be
an adjustable releasable position securement along, or just below, that seam,
such as in the form
of hook-and-eye mating fabric strips.
Where insulated wall 538 is used, sub-compartment spaces 550 and 552 may be
kept at
different temperatures or different thermal conditions. That is, one may wish
to keep space 550
cool, or cold, perhaps as suitable for a bottle of white wine, or cheeses, or
cold cuts, or fresh
fruit. At the same time one may wish to keep space 552 warm, as suitable for a
flask of warm
soup. Sub-compartment 554 may contain bread, or crackers, such other items as
may be.
CA 2997588 2018-03-07
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Alternatively, space 552 may be neither chilled nor warmed, as may be suitable
for a red wine.
The arrangement of container assembly 500 permits different temperature
options to be
considered by the user. The semi-cylindrical wall form may be well suited to
liquid containers,
such as, for example, wine bottles.
Considering then gel packs 530, 532 of Figure 15c, and Figure 16a, these packs
may
have a primary fold, or hinge, as at the relieved mid portion, at 556. It may
also be that the gel in
the packs is itself in an array of spherical balls, or pea packs, such that
even when hard frozen,
the overall assembly may retain an ability to flex and follow the contour of
accommodation 522
or 524. Alternatively, three-segment gel packs 560 of Figure 16b, or four-
segment gel packs 562
of Figure 16c may be used where a larger number of segments may be desired to
approximate
the curved accommodation. In each case the hinge elements at 556 provide
articulation between
the segments, such that the articulated unit can bend.
In Figures 15a ¨ 15j, the soft-sided insulated container has an internal
chamber in which
to place objects. It has a wall structure that has externally accessible
accommodations in which
to receive thermal storage elements. The accommodations are non-planar, and
define a path or
track into which the thermal storage members move by translation. The paths so
defined are not
straight, but rather are curved. The thermal storage members are flexible, or
bendable, to permit
them to bend to follow the path. In one form, that flexibility is provided by
employing
segmented thermal storage members that can bend as they follow the arcuate
path. In the
bendable thermal storage members the span of the element is not planar, but
rather follows the
arc-length of the path, measured across the various segments.
In Figures 17a to 19f, a soft-sided insulated container assembly is shown
generally as
600. It has a first, front, or top wall, or top wall panel 602, a second,
back, or bottom wall, or
bottom wall panel 604, and an upstanding peripheral sidewall 606. The
structure of walls 602,
604, and 606 may be substantially the same, or the same, as described above.
That is to say, each
may have an inner layer or web or membrane; an outer layer or web or membrane;
and a layer of
insulation located between the inner and outer layers in the manner of the
structure shown in
Figure 3b, Figure 11a, or Figure 11b. As in the embodiments described above,
the insulation is
captured between the inner and outer layers or webs or membranes, and an
accommodation for a
thermal gel pack is defined between the insulation and the inner layer or web
or membrane, as
described above. Soft-sided insulated container assembly 600 may be generally
box-shaped. That
is, peripheral sidewall 606 may be four-sided, corresponding to a rectangular
four sided box
CA 2997588 2018-03-07
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having a pair of short walls identified as left and right hand walls or wall
panels 610, 612 and a
pair of long walls identified as front and back walls or front and back wall
panels 614, 616.
Soft-sided insulated container assembly 600 may also have an internal
partition 620, as
seen in Figures 17b and 17c. Internal partition 620 may be generally planar
and may be located
spaced apart from and intermediate to top wall panel 602 and bottom wall panel
604, which may
also be generally planar, such that the internal volume of container assembly
600 is divided into
a first container portion 622 having a first internal chamber 624; and a
second container portion
626 having a second internal chamber 628. In the orientation of Figure 17a,
first internal
chamber 624 sits above second internal chamber 628, the one chamber being
stacked upon the
other.
Peripheral sidewall 606 has a first or upper portion 630 and a second or lower
portion
632. Upper portion 630 is hingedly connected to lower portion 632 along a
hinge 634 in one of
the long portions of peripheral sidewall 606, such as in long wall 616. A
closure, or closure
member, 636 is releasable to permit first container portion 622 to move
between a first position
and a second position relative to second container portion 626. Closure 636
may be a tracked
fastener such as a zipper that runs around the three remaining sides of
peripheral side wall 606
opposite hinge 634. Hinge 634 effectively divides the rear wall, or rear long
side 616 of
peripheral insulated side wall 606 into upper and lower portions. Similarly,
closure 636 divides
the short side walls 610, 612 and front wall panel 614 into upper and lower
portions as seen in
Figure 17a.
In this configuration, the first or top wall panel 602 may also include or
define or
function as the lid of upper portion 622, being movable between open and
closed positions to
govern access to upper chamber 624. Top wall panel 602 is hinged along its
margin with rear or
back wall panel 616, and has a tracked closure member, such as a zipper 618,
that runs along the
remaining three edges of peripheral side wall 606, as seen in Figure 17c.
The internal wall, or divider, or panel, identified as internal partition 620
cooperates with
upper portion 630 of peripheral side wall 606, and with top wall or top wall
panel 602 to define
the soft-sided insulated wall structure of first container portion 622. Lower
portion 632 of
peripheral sidewall 606 and bottom wall, or bottom wall panel, 604 cooperate
to define the soft-
sided insulated wall structure of second container portion 626. In this
example, the lid of second
container portion 626 may be defined by internal partition 620, or in a larger
sense, by first
container portion 622, to the extent that movement of first container portion
622 between a first,
CA 2997588 2018-03-07
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or closed, position, (as shown in Figure 17a) and a second or open position
(as shown in Figure
17c) governs access to second chamber 628.
As seen in Figure 17b and 17c, when the first container portion 622 is moved
to the open
position relative to second container portion 626 the underside of internal
partition 620 is
exposed. A web 638 is attached to the underside of partition 620 to form a
pocket or pouch or
accommodation 640. Accommodation 640 is sized to receive a thermal storage
member such as
gel pack 642 (As shown in Figure 18a). The opening of accommodation 640 may be
at a free
edge or lip 644 that runs along a margin or edge of partition 620 that is
distant from hinge 634.
Thus when closure 636 is opened along the front edge of container assembly
600, access is
provided slidingly to introduce gel pack 642 into the slot 646 defined between
lip 644 and
partition 620. Internal partition 620 need not be an insulated panel. In an
embodiment in which
partition 620 is not insulated, a gel pack lodged in the slot of accommodation
640 will serve to
provide cooling in both the first, or upper, internal chamber 624 and the
lower chamber 628. In
the embodiment shown gel pack 642 can be installed without opening upper
chamber 624.
Internal partition 620 has a layer, or web, or membrane 650 that bounds the
upper side of the slot
of accommodation 640 and that separates upper chamber 624 from accommodation
640.
As in the embodiment of figures 10a to 10i, the first, front, top wall, or top
panel 602 has
an accommodation, like accommodation 80, formed therein for a thermal storage
member such
as gel pack 648. Access to the accommodation is governed by a first thermal
storage
accommodation access slot closure 658 (shown in Figures 17a and 18a) which may
be
substantially the same as slot closure 244. Similarly the second, back, or
bottom wall, or bottom
wall panel 604 has an accommodation for a thermal storage member, such as gel
pack 652.
Access to this accommodation may be governed by a second thermal storage
accommodation
access slot closure 656 formed in front wall panel 614 as seen in Figures 17a
and 18a. In an
alternate embodiment, the accommodation access may be provided in bottom wall
panel 604 in
the manner of closure member 246 of lunch box 220 of Figures 10a ¨ 10i. These
accommodations and slot closures may have the same structure and arrangement
as the
embodiments of Figures 10a, 11a, 1 lb and 12a, as described above. Thus, soft-
sided container
assembly 600 has (a) a first gel pack slot in the first wall panel, 602,
governed by slot closure
658; (b) a second gel pack slot in the second, or bottom, wall panel 604,
governed by slot closure
656; and (c) a third gel pack slot 646 in internal partition 620,by which
access is obtained to
accommodation 640, that access to accommodation 640 being governed by the
position of
closure 636. As described above in the context of other embodiments, the first
and second gel
pack slots in panels 602 and 604 are externally accessible, independently of
whether the main
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closure members (i.e., closure members 618 and 636) of the respective upper
chamber 624 and
lower chamber 628 are open or closed.
Partition 620 may be secured along a first edge to upstanding peripheral
sidewall 606 on
the inside of hinge 634. Partition 620 may also be secured along an opposite
edge to the lower
distal margin of first or upper portion 630 of upstanding peripheral sidewall
606, such that
partition 620 over spans second internal chamber 628. Alternatively or
additionally partition 620
may be secured along the lower margins of the short sides of first or upper
portion 630 of
upstanding peripheral sidewall 606, again so that it is suspended over
internal chamber 628.
Where partition 620 is secured along all four sides, it forms a continuous and
closing bottom
panel of first or upper container portion 622. As noted above, closure member
636 runs along the
edges where upper partition 620 meets the lowermost margin of first or upper
portion 630 of
upstanding peripheral sidewall 606 away from hinge 634, such that second
internal chamber 628
can be opened and closed without changing the relationship of partition 620 to
upper chamber
624. That is, the opening and closing of second internal chamber 628 is
independent of the
opening and closing of first internal chamber 624.
As shown in Figure 17c, container assembly 600 is movable to a fully open
position in
which the lid, or top wall panel 602 of first container portion 622 lies flat
on the ground next to
bottom wall panel 604 with hinge 634 having been folded 180 . In this
orientation, what had
formerly been the bottom of partition 620 now faces upward. It may be that a
person using
container assembly 600 may then wish to obtain access not only to second
internal chamber 628,
but also to first internal chamber 624. To that end, partition 620 includes a
further closure
member 654. Closure member 654 may have the form of a three-sided tracked
fastener such as a
zipper that runs around the margins of membrane 650 of partition 620 inside
closure member
636 with the fourth side of partition 620 remaining attached to hinge 634. In
the inverted
position of first internal chamber 624, closure member 654 may be released to
permit the inset
portion of partition 620 to be opened relative to first internal chamber 624.
The pouch or pocket
of accommodation 640 remains attached to the inset portion of membrane 650
that is then
movable between open and closed positions. The third gel pack, 652, may be
inserted or
removed whether partition 620 is in the open or closed position relative to
first internal chamber
624.
As can be seen, first internal chamber 624 can then be opened whether it is in
the
orientation of Figure 17a, as by opening the lid defined by top panel 602; or
in the inverted
orientation of Figure 17c, as by opening the inset portion of partition 620,
which by the process
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of inverting first internal chamber 624 has been become the lid in place of
top wall panel 602. In
some instances, as where a larger object is to be placed within container
assembly 600, closure
member 654 may be opened and partition 620 positioned in a non-obstructing
condition or
position, without a gel pack disk installed in accommodation 640. Thus, with
closure 636 in the
closed position, securing first chamber portion 624 to second chamber portion
628 thereby forms
a larger combined internal volume.
Various thermal storage elements 60, 170, 250, are shown in Figures 7a ¨ 7c,
8a ¨ 8c, 9a
¨ 9c, 16a ¨ 16c, and 19a ¨ 19f whether folding or rigid, which may be used in
the several
embodiments described above, as may be suitable. In each case the thermal
storage element may
have a welded plastic hinge folding line, or lines, or not, as may be
suitable. Typically, when the
gel is not frozen, the ice pack itself may tend to be amorphous, or floppy. In
some embodiments
the outside wall of the ice pack (or warming element, as may be) may itself be
made of a thicker,
stiffer plastic sheet that is substantially rigid, whatever the state of the
cooling or heating
composition may be, so that the ice pack (or warming pack) may tend to retain
its substantially
planar, predominantly disk-like shape. Of course, where a substantially rigid
panel is used to
establish the general shape of the element, that rigid panel need not
necessarily be planar, but
could be formed as a non-planar surface, such as, for example, a cylindrical
arc.
This specification incorporates by reference the specification and drawings of
United
States Patent Application 15/091,189 filed April 5, 2016. The features of the
various
embodiments herein may be mixed and matched as may be appropriate without the
need for
further description of all possible variations, combinations, and permutations
of those features,
including any permutations or combinations of claim features, or portion of
claim features, found
in any claim.
The principles of the present invention are not limited to these specific
examples which
are given by way of illustration. It is possible to make other embodiments
that employ the
principles of the invention and that fall within its spirit and scope of the
invention. Since
changes in and or additions to the above-described embodiments may be made
without departing
from the nature, spirit or scope of the invention, the invention is not to be
limited to those details,
but only by the appended claims.
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