U.S. patent application number 13/847536 was filed with the patent office on 2013-09-26 for food transport and storage container having removable inner container and insulating outer sleeve.
This patent application is currently assigned to THERMOS L.L.C.. The applicant listed for this patent is Marvin Lane. Invention is credited to Marvin Lane.
Application Number | 20130248537 13/847536 |
Document ID | / |
Family ID | 48013773 |
Filed Date | 2013-09-26 |
United States Patent
Application |
20130248537 |
Kind Code |
A1 |
Lane; Marvin |
September 26, 2013 |
FOOD TRANSPORT AND STORAGE CONTAINER HAVING REMOVABLE INNER
CONTAINER AND INSULATING OUTER SLEEVE
Abstract
A food container has an inner container for holding the food
items and an outer sleeve into which the inner container fits. The
inner container may be held in the outer sleeve by a friction fit
or a bayonet latch or other fastening means. The inner container
includes two handles by with the inner container is lifted from the
outer sleeve or by which the entire container is carried. A
threaded lid with a gasket fastens onto the inner container. The
lid and the outer sleeve may be insulated.
Inventors: |
Lane; Marvin; (Round Lake
Beach, IL) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Lane; Marvin |
Round Lake Beach |
IL |
US |
|
|
Assignee: |
THERMOS L.L.C.
Schaumburg
IL
|
Family ID: |
48013773 |
Appl. No.: |
13/847536 |
Filed: |
March 20, 2013 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
61614232 |
Mar 22, 2012 |
|
|
|
61691528 |
Aug 21, 2012 |
|
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Current U.S.
Class: |
220/574.3 |
Current CPC
Class: |
B65D 25/2888 20130101;
B65D 81/3881 20130101; A47G 23/00 20130101 |
Class at
Publication: |
220/574.3 |
International
Class: |
A47G 23/00 20060101
A47G023/00 |
Claims
1. A food container, comprising: an outer sleeve having an outer
wall and an inner wall so as to define an insulating space
therebetween, the outer sleeve defining an interior space and an
opening to access the interior space; a lip of the outer sleeve at
the opening to the interior space of the outer sleeve; an inner
container having an inner body that fits within the interior space
of the outer sleeve, the inner body defining a food containing
cavity; a collar on the inner container, the collar fitting over
the lip of the outer sleeve when the inner body is disposed within
the interior space of the outer sleeve, the collar defining a
portion of an exterior surface of the food container; at least one
handle extending from the collar; and a lid selectively fastenable
to the collar in sealing engagement.
2. A food container as claimed in claim 1, further comprising: a
bayonet latching structure securing the inner container to the
outer sleeve.
3. A food container as claimed in claim 1, wherein the at least one
handle includes two handles extending from opposing sides of the
inner container.
4. A food container as claimed in claim 3, wherein the handles each
include oppositely projecting rims at a perimeter and a web
extending between the perimeter of the handle and a body of the
inner container.
5. A food container as claimed in claim 3, wherein the handles each
include a handle surface defining a finger space opening toward a
closed end of the inner container.
6. A food container as claimed in claim 1, wherein the lid includes
an inner lid and an outer lid affixed to one another to define an
insulating space within the inner and outer lids.
7. A food container as claimed in claim 1, wherein the outer sleeve
includes an outer cylindrical wall, wherein the lip of the outer
sleeve has a cylindrical outer surface of a lesser diameter than
the outer cylindrical wall of the outer sleeve, and wherein the
collar has a cylindrical outer surface that forms a continuation of
the cylindrical wall of the outer sleeve.
8. A food container for holding food items, comprising: an outer
sleeve having a cylindrical outer wall and defining an interior
space, the outer sleeve having a rim of a smaller outer diameter
than the cylindrical outer wall; an inner container having a food
containing portion of a size and shape to fit into the interior
space of the outer sleeve, the food containing portion defining an
interior food containing space; a collar extending from the food
containing portion and defining a rim accepting space between the
collar and the food containing portion, the rim of the outer sleeve
fitting into the rim accepting space when the food containing
portion of the inner container is within the interior space of the
outer sleeve; first and second handles extending from the collar in
opposite directions from opposite sides of the collar; a threaded
cylindrical portion extending from the collar, the threaded
cylindrical portion including an exterior threaded cylindrical
surface of a smaller diameter than a diameter of the collar; and a
lid having an interior threaded portion for threadably engaging the
exterior threaded cylindrical surface of the threaded cylindrical
portion, the lid closing the interior food containing space when
the lid is in a sealed condition on the threaded cylindrical
portion, the lid maintaining the sealed condition regardless of
whether the inner container is in the outer sleeve or the outer
sleeve is removed from the inner container.
9. A food container as claimed in claim 8, further comprising: a
bayonet lock between the inner container and the outer sleeve to
releasably lock the inner container to the outer sleeve.
10. A food container as claimed in claim 8, wherein the bayonet
lock includes two bayonet locks, each bayonet lock being aligned
with a corresponding one of the first and second handles.
11. A food container as claimed in claim 8, wherein the outer
sleeve and the lid are insulated.
12. A food container as claimed in claim 11, wherein the outer
sleeve is vacuum insulated.
13. A food container as claimed in claim 8, wherein the inner
container and the collar and the handles are formed in one piece of
a microwave-safe material.
14. A food container as claimed in claim 8, wherein the inner
container and the outer sleeve are held together by a friction fit
when the food containing portion is within the inferior space of
the outer sleeve.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional
Patent Applications Ser. No. 61/614,232 filed Mar. 22, 2012, and
Ser. No. 61/691528, filed Aug. 21, 2012, both of which are
incorporated herein by reference.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] The present invention relates generally to a food container
for storing and transporting food items, and in particular to a
food container having a removable inner container and an insulating
outer sleeve.
[0004] 2. Description of the Related Art
[0005] Food containers have been developed to carry food at either
warmer or cooler temperatures than the surroundings and to maintain
the temperature differential. Students or workers may carry chilled
food items to school or work to ensure that the food does not
spoil, and then may desire to warm the food item prior to eating,
for example using a microwave oven. People going to a pot luck
party or a picnic may desire to bring a hot or warm dish to the
event and may wish to transport the hot food without risk of
contact with the hot food container and while maintaining the food
in a hot state.
SUMMARY OF THE INVENTION
[0006] The present invention provides a food storage and transport
container having a food containing inner container, a lid that is
securable to the inner container, and an outer sleeve that fits
over at least a portion of the inner container. The outer sleeve is
an insulating sleeve to maintain a temperature differential between
the contents of the inner container and the surroundings. The inner
container is removable from the outer sleeve and may be place into
a heating device, such as a microwave oven, to heat the contents of
the inner container.
[0007] A user of the present device may store chilled food items in
the inner container or even place the food items in the inner
container and place it in a cooling device, such as a refrigerator,
to chill. The inner container with the chilled food items is placed
into the insulated outer sleeve and is transported, for example, to
school or work. When the user desires to eat the food items, the
inner sleeve with the still chilled food items therein is removed
from the outer sleeve and placed into a heating device, such as a
microwave oven. The food items are heated and the user may eat the
food items directly from the inner container or may transfer the
food items to a plate or bowl for consumption.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008] FIG. 1 is an perspective view showing the food storage
container of the present invention;
[0009] FIG. 2 is an exploded view of the food storage container
with the lid removed;
[0010] FIG. 3 is an exploded view of the food storage container
with the inner container removed from the outer sleeve;
[0011] FIG. 4 is an exploded view of the lid and lid gasket;
[0012] FIG. 5 is a top plan view of the food storage container
including line A-A; and
[0013] FIG. 6 is a cross-sectional view of the food storage
container along line A-A of FIG. 5;
[0014] FIG. 7 is a perspective view of a second embodiment of the
food storage container;
[0015] FIG. 8 is a cross-sectional view of the second
embodiment;
[0016] FIG. 9 is an enlarged, fragmentary view of a locking
structure of the second embodiment;
[0017] FIG. 10 is a top perspective view of the outer sleeve of the
second embodiment showing a projection of the locking
structure;
[0018] FIG. 11 is a bottom perspective view of the inner container
of the second embodiment showing a bayonet slot of the locking
structure;
[0019] FIG. 12 is a bottom view of the inner container of the
second embodiment showing cross section lines through a handle;
[0020] FIG. 13 is a side cross-sectional view along the line D-D of
FIG. 12 showing the bayonet slot of the second embodiment;
[0021] FIG. 14 is a top perspective view of the inner container of
the second embodiment;
[0022] FIG. 15 is a top, perspective, exploded view of the lid of
the second embodiment; and
[0023] FIG. 16 is a top perspective view of the inner container
locked in the outer sleeve of the second embodiment.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0024] The food storage container 20 of FIG. 1 includes a container
body 22, a lid 24, and a collar 26. Handles 28 extend from the
collar 26 by which the container may be carried. The body 22
includes a base 30. The container 20 has a generally wide,
cylindrical shape.
[0025] FIG. 2 shows the food storage container 20 with the lid 24
removed. The collar 26 has a threaded lip 32 that extends upwardly
from the collar 26 and defines a wide-mouth opening 34 to the
container. The cylindrical lid 24 has corresponding interior
threads that selectively engage the exterior threads of the lip 32.
In the illustrated embodiment, the threads on the threaded collar
32 are course threads so that the lid may easily be started on the
threads without risk of cross threading. The wide mouth opening 34
of the inner container readily accepts foods such as stew, chili,
or other foods that might not fit so easily into a narrow mouth
container. The base 30 of the illustrated embodiment is wider than
the upper portion of the container 22 to add stability and prevent
accidental spills. The base 30 may be formed of a pliable, non-skid
material to prevent the slipping of the container.
[0026] The handles 28 extend outward from opposite sides of the
collar 26 and include raised upper and lower edges 36 and 38 and a
membrane 40 extending from the edge to the collar 26. The user can
grasp the handles 28 and lift or carry the container 20 without
spilling the contents. The handles 28 extend only a short distance
from the collar 26 and have a curved outer edge. The container 20
can thereby be packed away in a lunch bag or other enclosure
without the handles 28 taking up unnecessary room. The exterior
surfaces of the container and lid are generally smooth and
un-textured to provide an easy to clean surface.
[0027] In FIG. 3, an inner container 42 has been lifted out of the
outer sleeve 44. The outer sleeve 44 is a preferred embodiment is
insulated. The inner container 42 includes the threaded lip 32 and
the collar 26 with the two handles 28 and also includes a
cylindrical inner body 46 that fits into the cylindrical interior
48 of the outer sleeve 44. The outer sleeve 44 has an upper lip 50
set inward from the outer wall 52 of the outer sleeve 44. The
collar 26 fits onto the upper lip 50 of the outer sleeve 44 when
the inner container 42 is in position in the outer sleeve 44. In
the illustrated embodiment, the inner body 46 of the inner
container 42 fits snugly into the outer sleeve 44 so that the
friction fit of the inner container 42 within the outer sleeve 44
holds the two parts together, yet permits the inner 42 container to
be removed from the outer sleeve 44. The collar 26 may also have a
friction fit onto the upper lip 50 of the outer sleeve 44, although
this may not be necessary.
[0028] In one embodiment, the inner body 46 of the inner container
42 is ridged to permit easy sliding movement of the inner container
into and out of the outer sleeve. The ridges not only reduce the
surface contact area, and therefore the friction, between the
parts, but also provide channels for air flow so that air pressure
differences do not prevent insertion and removal of the inner
container 42.
[0029] Other means for engaging between the inner container and
outer sleeve are envisioned and are encompassed within the present
invention.
[0030] The collar 26 and handles 28 form part of the inner
container 42. The user who has placed food items into the present
container may remove the food items from the insulated outer sleeve
44 without contacting the food items. The food items and the
interior container 42 are lifted and carried by the handles 28. The
interior container 42 is of a material that can withstand heating,
for example. In one example, the outer sleeve 44 is of a metal
material or other sturdy material to withstand possible rough
treatment in being moved about and transported, and may be formed
as an insulated sleeve. The interior container 42 of one embodiment
is of a plastic or other microwavable material that can withstand
heating of the food contents as well as being cool enough to the
touch to enable the user to hold the inner container 42 by the
handles 28 after heating. The material of the inner container 42
may be of a material that resists staining by certain foods,
particularly during heating of the food items.
[0031] The user may take the inner container 42 from the outer
sleeve 44, fill the container with food items, attach the lid 24 to
the threaded lip 32 of the inner container 42, and place the inner
container 42 into a refrigerator, for example, prior to leaving for
work or school. When leaving for work or school, the inner
container 42 is placed into the insulated outer sleeve 44 and
brought with the user. The insulated outer sleeve 44 keeps the food
chilled. When ready to eat, the user removes the inner container 42
from the outer sleeve 44, removes or loosens the lid 24, and heats
the container and food in a microwave oven. The inner container 42
with the heated food may be lifted by the user using the handles
28. The warmed food may be eaten directly from the inner container
42 or the inner container 42 may be placed back into the outer
sleeve 44 to keep the heated food warm and prevent user contact
with the possibly hot container. The inner container 42 may be
washed separately from the outer sleeve 44, if desired.
[0032] FIG. 4 shows the lid 24 that threads onto the lip of the
inner container 42. It is desirable that not only is the inner
container 42 liquid tight but that the lid 24 is also liquid tight
when secured to the inner container 42. A gasket 54 is provided to
effect a liquid tight seal between the inner container 42 and the
lid 24. The gasket 54 is annular shaped and seals the interior of
the lid 24 against the upper edge of the threaded lip 32. The
gasket 54 ensures that liquids or food materials do not leak from
the food container. A fluid tight seal can be made with only a
single seal element, and without requiring a seal or even a
connection between the lid and the outer sleeve.
[0033] In FIG. 5, the handles 28 enable grasping of the container
20 whether with the lid in place or with the lid removed and
whether with the inner container within the outer sleeve or with
the inner container removed from the outer sleeve. The handles 28
are compact to avoid occupying a significant amount of room in, for
example, a lunch bag during use or in a cabinet when not in use.
The circular shape of the container 20 facilitates microwave
heating of the contents with fewer hot spots. The handles 28 are
disposed below the top lip of the inner container 42 to enable the
user to stir the contents, to access the contents with an eating or
serving utensil, or to place the container 20 in a dish drying rack
without the handles 28 getting in the way.
[0034] Turning to FIG. 6, the container 20 in cross section reveals
that the lid 24 is formed in two parts, an outer lid 56 having a
domed top surface 58, an interior-threaded circular rim 60 and a
circular flange 62 within the circular rim 60, and an inner lid 64
secured to the circular flange 62. The outer lid 56 and inner lid
64 form a hollow interior space 66 that serves to insulate the
interior of the container from the surroundings. The hollow
interior space 66 of the lid 24 may be filled with air, a neutral
gas, a partial vacuum, or an insulating material. The circular
space between the inner lid and outer lid holds the gasket 54,
which may be formed of silicon or other low taste, heat resistant
material.
[0035] The inner container 42 has the upper lip 50 threaded into
the rim 60 of the lid 24. The upper lip 50 is recessed, having a
smaller outer diameter, to enable the lid 24 to form a generally
continuous surface with the collar 26. The upper lip 50 of the
outer sleeve 44 is also recessed, or formed of a smaller diameter,
so that the outer surface of the collar 26 forms a generally
continuous surface with the outer surface of the outer sleeve 44. A
generally smooth sided container 20 is formed by the assembled lid
24, inner container 42 and outer sleeve 44. The handles 28 with the
raised lower and upper edges 38 and 36 and central membrane 40 are
visible in this view. The collar 26 extends over the lip 50 of the
outer sleeve 44, or considered another way, the lip 50 extends into
the interior space of the collar 26.
[0036] The lower portion 46 of the inner container 42 extends into
the interior 48 of the outer sleeve 44. The interior 48 of the
outer sleeve 44 is generally form fitted to the shape of the inner
container 42. The outer sleeve 44 has an inner wall 68 and an outer
wall 70 defining an insulating space 72 therebetween. The
insulating space 72 may be filed with air, a neutral gas, a partial
vacuum, or an insulating material. The insulating space 72 insures
that hot foods in the container stay hot and cold foods stay
cold.
[0037] The base 30 of the outer sleeve 44 encloses the lower end 74
of the outer sleeve 44 and defines a further insulating space at
the bottom of the food container.
[0038] Thus, there is shown and described a food container having a
removable inner container that seals in the food and can be heated
or chilled with the food inside without the insulating sleeve. The
insulating sleeve keeps the food either hot or cold as desired.
Further heating or cooling of the food is facilitated by removing
the outer sleeve and without the need to remove the food from the
container to a separate plate or bowl.
[0039] FIG. 7 shows a second embodiment of the present food storage
container 100 in its fully assembled condition. The food storage
container 100 includes a lid 102 secured onto a top ring 104 of an
inner container, a pair of handles 106 extending in opposite
directions from the top ring 104 of the inner container, and an
outer sleeve 108 into which the inner container fits. A base 110 is
provided on the outer sleeve 108. The lid 102, inner container and
base 110 are preferably formed of a plastic material and the outer
sleeve 108 is preferably formed of steel configured as a vacuum
insulated container.
[0040] In FIG. 8, the lid 102 is threaded onto the top ring 104 of
the inner container 114 and is thereby held in place. A gasket 112
within the lid 102 seals the lid 102 and inner container 114
together to prevent leakage of food or beverages from the inner
container. The lid 102 includes a central projection 116 forming an
air chamber or insulating chamber 118 to thermally insulate the
interior of the inner container 114 from the environment.
[0041] The inner container 114 has a lower portion 120 extending
into the interior of the outer sleeve 108. The lower portion 120 of
the inner container 114 is hollow and intended to hold food items
that are to be kept hot or cold. Other items may of course be
stored in the inner container 114. The inner container 114 has the
handles 106 extending from opposite sides at the top ring portion
by which the inner container 114 can be lifted. The handles 106 can
be of any shape. Here the handles are downwardly curved projections
that provide fingertip spaces 122 on the underside to ensure that
the container 100 does not slip as it is being lifted by the
user.
[0042] The outer sleeve 108 fits over the lower portion 120 of the
inner container 114 to enclose the lower part of the inner
container 114. The outer sleeve 108 has a double wall 124 and 126
with a partial vacuum between the walls to provide thermal
insulation for the food or other items in the inner container. The
inner wall 124 of the lower sleeve 108 is contoured to fit closely
with the outer surface of the inner container 114. The base 110 is
mounted on the bottom of the outer sleeve 108. The inner container
114 and the outer sleeve 108 are fastened to one another by a
locking structure in the form of a bayonet lock 128. The bayonet
lock 128 includes a pair of projections 130 extending from the
inner top surface of the outer sleeve 108, which projections 130
engage into bayonet slots 132 on the outer surface of the inner
container 114. In the illustrated embodiment, the locking
structures are beneath the handles, which facilitates aligning of
the bayonet locking portions by the user.
[0043] FIG. 9 provides an enlarged cross-sectional view through the
locking structure 128. The projection 130 on the inner wall of the
outer sleeve 108 is rounded and may be in the shape of a portion of
a sphere. Other shapes are of course possible. The bayonet slot 132
in the inner container wall 114 is of a size and shape to
accommodate the projection 130, preferably with room to spare. A
bump 134 is provided in the bayonet slot 132 over which the
projection 130 must pass to move the locking structure into the
locked position.
[0044] In FIG. 10, the outer sleeve 108 has the projection 130 on
the inner surface. A second such projection 130 is provided on an
opposing inner wall of the outer sleeve, although it is not visible
in this view. The projection is here shown with a circular shape.
Other shapes are possible.
[0045] FIG. 11 is a bottom view of the inner container 114. Beneath
the handle 106 is an L-shaped recess or bayonet slot 132 formed
into a raised rim 136 on the inner container 114. The recess or
slot 132 has a vertical portion 138 extending generally along a
direction parallel to an axis of the container 100 extending to the
edge of the raised rim 136 by which the projection 130 of the outer
sleeve 108 may enter the recess 132. The recess 132 has a
horizontal portion 140 extending generally along a portion of the
circumference of the container forming the second leg of the
L-shaped recess. The locking bump 134 is near the end of the
horizontal portion 140, with sufficient space at the end of the
horizontal portion to accommodate the projection 130 in the locked
position.
[0046] A handle support rim 142 of the inner container 114 extends
toward the closed end of the inner container spaced from the raised
rim 136 so as to define a generally annular space 144 into which
the top edge of the outer sleeve 108 fits when the inner container
114 is assembled in the outer sleeve 108. Positioning the top edge
of the outer sleeve 108 into the space 144 between the handle
support rim 142 and the inner container 114 brings the upper rim of
the outer sleeve 108 into position to permit the projections 130 to
engage the bayonet slots 132. A second bayonet slot is provided on
the opposite side of the inner container beneath the other handle
106.
[0047] The locking projection or bump 134 is visible in the second
or horizontal leg 140 of the L-shaped bayonet slot. The projection
134 meets resistance upon encountering the locking projection 130
as the user rotates the inner and outer parts relative to one
another. By exerting additional turning force between the inner
container 114 and the outer sleeve 108, the resistance is overcome
and the projection 130 moves past the locking projection 134 to the
end of the L-shaped slot 140. The projection 130 on the outer
sleeve 108 becomes trapped at the end of the bayonet slot 132,
keeping the inner container 114 and the outer sleeve 108 together,
but permitting them to be separated when desired. For example, the
components do not come apart when being transported to work or
school, but can be easily separated to permit heating of the food
in the inner container 114 using a microwave oven, for example.
Once the food is heated, the inner container 114 may be inserted
back into the outer sleeve 108 to transport the warmed food to a
table or the user's desk.
[0048] The raised rim 136 of the inner container 114 also contacts
ribs 146 or other structures at the top rim of the outer sleeve 108
to provide a frictional engagement of the inner and outer
components--see FIG. 10.
[0049] FIG. 12 shows the handles 106 and inner container 114. The
vertical portions 138 of the L-shaped bayonet recesses are beneath
the handles 106, offset from the center lines of the handles to
receive the projections 130 on the outer sleeve 108. The user who
is holding the handles may easily align the projection and bayonet
slot using the handles as a guide.
[0050] FIG. 13 provides a view of the L-shaped bayonet recess 132
with the handle removed to better show the shape and position of
the recess. The first portion or vertical portion 138 of the recess
for receiving the projection at the lower edge of the raised rim
136 leads into the horizontal or second portion 140 of the L-shaped
recess. The locking projection 134 extends across the second
portion 140 of the recess spaced from the end of the recess by a
sufficient distance to provide a capture space 148 for holding the
projection 130 of the outer sleeve 108 when the two components are
locked together.
[0051] Locking the inner container 114 into the outer sleeve 108 is
performed by inserting the lower portion of the inner container 114
into the outer sleeve 108 until the projections 130 on the outer
sleeve 108 contact the raised rim 136. After being slid into the
outer sleeve 108, the inner container 114 and outer sleeve 108 are
rotated relative to one another until the projections 130 reach the
locking recesses 132 so that the projections 130 slide into the
vertical portions 138 of the recesses. The inner container 114 and
outer sleeve 108 are rotated relative to one another to move the
projections 130 along the horizontal portions 140 of the recesses
until resistance is met as a result of the outer sleeve projections
130 contacting the locking projections 134. By applying force to
overcome the resistance to further turning, the user is able to
move the projections 130 over the locking projections 134 and
engage into the space 148 at the closed end of the locking recess
132. The locking projection 134 prevents rotation out of the locked
position unless an unlocking force is applied. The components are
thereby secured together.
[0052] The latching of the inner container 114 to the outer sleeve
108 can be accomplished by a single projection and a single bayonet
recess or by multiple projections and multiple recesses. A
combination of more bayonet recesses than projections may be
provided to permit locking in several rotational positions. Other
latching means to secure the components together may be provided as
well.
[0053] Unlocking the inner container 114 from the outer sleeve 108
is performed by applying a twisting force or rotation force to
overcome the locking resistance and permit the outer sleeve
projection 130 to move over the locking projection 134. Further
turning of the inner container 114 in the outer sleeve 108 moves
the projection 130 to the open end of the horizontal recess 140,
where the sleeve 108 and container 114 may be separated by a
vertical motion. The user may thereby remove the previously locked
inner container 114 for heating or washing and may lock the inner
container into the outer sleeve for transport and insulation.
[0054] The lid engaging threads 150 on the upper edge of the inner
container 114 are shown. Cooperating threads are provided in the
lid 102.
[0055] FIG. 14 shows the inner container 114 fit into and locked to
the outer sleeve 108. Food items may be placed into the interior of
the inner container 114 for storage or transport and are thermally
isolated from the environment so the food is kept warm or cool. The
bayonet slots 132 are positioned beneath each handle 106 to enable
the user to use the handles as a guide to aligning the locking
projections 130 with the locking recesses 132. The user is able to
visually align the handles 106, here shown at opposite sides of the
inner container 114, with the projections 130 on the inside of the
outer sleeve 108. Latching of the inner container 114 and outer
sleeve 108 is thereby easily accomplished without the user needing
to search for the latching recess 132 by rotating the components
over significant rotational angles.
[0056] FIG. 15 shows the lid 102 and lid gasket 112 that is affixed
to the rim of the inner container by threaded connection. The
gasket 112 of one embodiment is of silicon, although other
materials are possible. The lid 102 is of a plastic material in one
embodiment, although other materials are possible. The lid gasket
112 is fit into the recess in the lid 102 and remains there during
use. The gasket 112 forms the seal between the inside surface of
the lid 102 and the edge of the rim of the inner container 114. The
lid 102 need not be removed from the inner container 114 to remove
the inner container 114 from the outer sleeve 108 or to insert it
into the outer sleeve 108. As such, the lid 102 can remain in place
to prevent spilling of soup or other foods while removing the inner
container. The lid 102 is removed from the inner container 114
before heating the food, for example, in a microwave oven.
[0057] FIG. 16 shows the inner container 114 in the outer sleeve
108 but without the lid 102. The inner container 114 has been
secured to the outer sleeve 108 by the bayonet connection. The
outwardly projecting flange with the downwardly directed outer
edge, or handle support rim, 142 on the inner container 114 extends
over the rim of the outer sleeve. In addition to providing a more
unitary structure to the assembled components, this structure
prevents food from getting between the components. The inner
container 114 is of a plastic material, and preferably a material
that is microwavable with food contained therein. The outer sleeve
108 of a preferred embodiment is of stainless steel with a plastic
base 110. After the food is heated in the microwave in the inner
container, the inner container 114 may be slid into the outer
sleeve 108 to insulate the heated food from the cooler environment.
The inner container 114 may also be placed into a refrigerator or
other cool place to cool the food, and the cooled food and inner
container 114 then slid into the outer sleeve to keep the food
cool.
[0058] The inner container 114 and outer sleeve 108 may be held
together by friction, by a latching structure--one example of which
is shown--or by a combination of both friction and a latching
structure.
[0059] Although other modifications and changes may be suggested by
those skilled in the art, it is the intention of the inventors to
embody within the patent warranted hereon all changes and
modifications as reasonably and properly come within the scope of
their contribution to the art.
* * * * *