BACKGROUND OF THE INVENTION
[0001] The present invention relates in general to sealed containers for storage. In particular,
the present invention relates to an improved arrangement for sealing a container about
a locus of points defining a non-planar surface. A container of this type is disclosed
in FR-A-2 693 172.
[0002] Sealed containers in general are well known, especially for household use and for
storing of food. Such containers are exemplified by Tupperware® brand containers having
a base defining a volume for receiving a quantity of material, typically food, and
a lid secured to the base to close same. The fit between the base and lid is typically
designed to provide a liquid-tight seal, and possibly a gas-tight seal. This seal
is achieved in a number of different ways well known in the art.
[0003] These containers have taken a variety of shapes, with outer peripheries ranging from
relatively square to round, with bases ranging from relatively flat platforms to deep
concavities, and with lids ranging from deep inverted concavities to relatively flat
covers. Despite this variety in shape, however, the actual points of contact between
the base and lid, i.e., the actual seal, has typically been along a locus of points
which defines a plane. In other words, regardless of the shape of the assembled base
and lid, the base and lid joined along a linear plane passing through this assembly.
This linear plane permitted the lid to be placed on the base by moving in a direction
normal to such plane.
[0004] This has limited design potential for the containers. It has been known to place
this plane at an angle, and at various vertical positions. It has also been known
to provide a gentle curvature to the plane about one axis. Each of these variations
has expanded design possibilities, but has had limits. In particular, even with the
gently curved seal the components forming the seal were oriented vertically. In other
words, the lid was still placed on the base (i.e., the sealing direction) by pure
vertical movement (discounting the radial flexing of the plastic components). While
this is acceptable for minimal curvature in the sealing plane, more pronounced curvatures
resulted in poor seal fits. With the present invention, the design possibilities are
expanded further. With the present design, the curvatures of the plane may be much
more radical, as the sealing direction varies about the plane. This variation in sealing
direction requires variation in the sealing components, generally such that they are
normal to the plane of the seal.
SUMMARY OF THE INVENTION
[0005] An object of the present invention is to provide a improved container having a base
with sealing lid in which the seal between the two is along a locus of points defining
a non-planar surface.
[0006] This object is achieved by a container according to claim 1. The base has an rim
which includes a first seal component. The lid has a rim which includes a second seal
component. The first and second seal components interact to provide a seal, for example
a water-tight seal, when the lid is mounted to the container to thus protect the contents
of the container. The seal is formed along a locus of points defining a non-linear
plane, or curved surface. The first and second seal components are oriented so as
to be substantially normal to the non-planar surface at any given point along the
seal. This arrangement permits greater design possibilities due to fewer restraints
on seal component placement, while still providing excellent sealing properties for
the container.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] The objects and features of the invention noted above are explained in more detail
with reference to the drawings, in which like reference numerals denote like elements,
and in which:
Fig. 1 is a perspective view of a first embodiment of a container according to the
present invention;
Fig. 2 is a side view of the container of Fig. 1;
Fig. 3 is a detail cross-sectional view along line 3-3 of Fig. 1;
Fig. 4 is an exploded view of the assembly of Fig. 3;
Figs. 5 and 6 are exploded detail views similar to Fig. 4, showing alternative prior
art sealing arrangements; and
Fig. 7 is a detail view along line 7-7 of Fig. 1, with components exploded.
DETAILED DESCRIPTION OF THE INVENTION
[0008] With reference to Fig. 1, a first embodiment of a container according to the present
invention is generally designated by reference numeral 10. The container 10 includes
a base 12 and a lid 14. The base 12 and lid 14 together define an interior 16 (Fig.
3) which will receive material for storage within the container 10. The interior 16
is formed by one or both of the base 12 and lid 14 having a concave configuration,
typically the base 12, as shown in Fig. 1.
[0009] In the first embodiment, the base 12 includes a bottom wall 18 having an outer periphery,
and one or more side walls 20 extending upwardly from the bottom wall 18 to form a
base rim 22. The lid 14 includes a top wall 24 having an outer periphery which defines
a lid rim 26. It will be apparent that these components could be inverted such that
the lid 14 acts as the base, and the base 12 acts as the lid. Alternatively or additionally,
the lid 14 could have a depth which contributes appreciably to the interior 16 by
addition of side walls (not shown) in a manner similar to that shown for base 12.
[0010] The base rim 22 and lid rim 26 are configured to form a mating seal when assembled
together. To this end, the base rim 22 includes a first seal component 28 and the
lid rim 26 includes a second seal component 30. In the first embodiment, the first
seal component 28 takes the form of a vertically extending rib, and the second seal
component 30 takes the form of a downward opening groove which closely receives this
rib. As best shown in Fig. 4, it is known in the prior art to form this groove with
a variation in width, such as by a protrusion 32. As may be envisioned, this protrusion
will serve to pinch the rib when assembled. While the rib may be closely received
within the groove at all points, it is at this protrusion 32 that the actual seal
is formed for strong seals, such as water-tight.
[0011] To achieve a tight fit, and thus produce a good seal, it is preferred that at least
one of the first seal component 28 and/or second seal component 30 at least include
a material having elasticity. This elasticity may be relatively minor, and be provided
by forming the second seal component 30 from sheet metal. For ease of manufacture
and maintenance, it is preferred however that this elastic material be a plastic.
For example, the lid 14 may be formed of a monolithic piece of plastic material such
a polyethylene.
[0012] As noted above, in the prior art these seal components would lie along a linear plane
(as do the portions of the seal components shown in Figs. 3 and 4). Further, in the
prior art it is known to provide a better seal by providing the seal components with
a slight angle with respect to vertical. This is illustrated by the angle A in Fig.
4. In terms of the present invention, it is seen that prior art seal components are
placed at a slight angle with respect to the plane of the seal (i.e., a horizontal
plane in Figs. 3 and 4), and are thus not normal to such plane. For the purposes of
this invention, this angle is encompassed by the phrase "substantially normal" when
referring to the locus of points defining the seal. As such, the portion of the seal
components shown in Figs. 3 and 4 is substantially normal to the linear horizontal
plane.
[0013] In the prior art the locus of points defining the seal (i.e., the contact points
between the protrusion 32 and base rim 22) would typically form a linear horizontal
plane. Further, the seal components (i.e., the base rim 22 and lid rim 26) extend
in a parallel, vertical direction. In the one prior art container known to applicants
in which the locus of points defining the seal is not a linear plane, the curvature
of the plane is gentle and small, and the seal components still extend in a parallel,
vertical direction.
[0014] The first seal component 28 and second seal component 30 may take various other forms
known in the art. Examples of other seal components are shown in Figs. 5 and 6. In
Fig. 5, a prior art container 34 includes a base 36 and lid 38. The base 36 includes
an upper rim 40, and the lid 38 includes a depending skirt 42 sized to closely surround
the upper rim 40. The first seal component 28 in this embodiment is a peripheral projection
44 extending laterally outward from the upper rim 40, and the second seal component
30 is the inner face of the skirt 42. As may be envisioned, upon assembly the projection
44 will press against the inner face of the skirt 42 to form the actual seal.
[0015] In this arrangement the locus of points defining the seal again forms a linear, horizontal
plane, and the seal components (i.e., the upper rim 40 and skirt 42) again extend
in a parallel, vertical direction.
[0016] The arrangement of Fig. 5 may also be reversed, such that the skirt is received within
the upper rim, and the skirt includes a ridge which abuts the inner face of the upper
rim. This is similar to the prior art arrangement shown in Fig. 6. In this arrangement
a container 46 includes a base 48 and a lid 50. The base 48 again includes an upper
rim 52, which in this case includes a inward extending peripheral rim forming a downward
directed shoulder 54. The lid 50 includes a lid rim 56 surrounding a depressed top
wall 58. The inner face of the lid rim 56 includes a ridge 60 positioned to seat beneath
the shoulder 54 when the lid 50 is assembled to the base 48. This abutment of the
projection 60 against the shoulder 54 forms the seal in this arrangement.
[0017] Here again the locus of points defining the seal define a linear, horizontal plane,
and the seal components (i.e., the upper rim 52 and lid rim 56) extend in a parallel,
vertical direction.
[0018] Various other seal component structures are known in the prior art. In each case
however, the locus of points defining the seal is believed to lie within a linear,
typically horizontal, plane. Further, the seal components are believed to extend in
a parallel, typically vertical, direction. To the extent, however, that these other
seal components may be used according to the present invention, they are intended
to be encompassed hereby.
[0019] To this point the description of the container 10 has focused on those aspects which
are identical to the prior art. The present invention, however, differs from the prior
art in an important respect. This difference is the formation of the seal components
such that the locus of points forming the seal defines a non-linear plane, and that
the seal components extend in a direction normal to such plane at any particular point
along the seal.
[0020] As shown in Fig. 2, the side walls 20 have a reduced height adjacent the left end,
such that the base rim 22 slopes downward toward this end. In a similar manner, the
lid 14 and lid rim 26 slope downward as well. As may be envisioned, the locus of points
defining the seal will thus be a non-linear plane. In this simple example, the non-planar
surface includes a single line of curvature between two linear planar portions. Other,
more complex, forms are of course possible. This non-planar surface is a first aspect
of the present invention. The second aspect is the orientation of the seal components,
which is best illustrated in Fig. 7.
[0021] As shown, the base rim 22 and lid rim 26 (with associated protrusion 32) slope downward
adjacent this end of the container. The seal components do not extend vertically,
however, but instead extend substantially normal to the non-planar surface at each
point along the seal. In other words, a true normal N to the non-linear plane extends
perpendicular to the edge of the base rim 22. The seal components may, however, be
offset from this true normal N by the small angle A to increase the operability of
the seal as is known in the art. As such, the seal components extend substantially
normal, as defined above. This offset may not be required in all configurations, however,
and true normal orientation is of course also encompassed within "substantially normal".
[0022] As noted, this is a simple example showing only a single line of curvature between
two linear planar portions. The principle of the present invention may however, be
applied to more complex forms having multiple lines of curvature extending in multiple
directions with multiple radii. In each case the locus of points defining the seal
will define a non-linear plane, and in each case the seal components will extend in
a direction substantially normal to such plane at any point along the seal. This arrangement
permits a good seal to be formed about the entirety of the base, while greatly increasing
the design possibilities for containers.
[0023] While this principle is relatively simple, the actual production of containers according
to the present invention is more problematic. Specifically, molding such containers
using injection molding techniques presents issues of blockage and release. For example,
in Fig. 7 it may be seen that for the base the typical parting line between mold portions
would be at the edge of the base rim 22. This presents no problems. However, the outward
extending lip 62 does. The upper face of this lip 62 extends inward, such that the
mold portion forming this upper face would tend to block release of the base from
the mold (i.e., movement in the vertical direction in Fig. 7). Similar problems may
be seen with regard to molding the lid 14, and in particular the lid rim 26. These
problems may be eliminated, however, by use of movable mold portions as are known
in the art. While the use of movable mold portions is not feasible for all applications,
it will still permit a wide range of container forms to be produced according to the
present invention.
[0024] From the foregoing it will be seen that this invention is one well adapted to attain
all ends and objects hereinabove set forth together with the other advantages which
are obvious and which are inherent to the structure.
[0025] Since many possible embodiments may be made of the invention without departing from
the scope of the claims, it is to be understood that all matter herein set forth or
shown in the accompanying drawings is to be interpreted as illustrative, and not in
a limiting sense.
1. Behälter mit einer Basis (12) und einem Deckel (14), wobei die Basis eine erste Dichtungskomponente
aufweist und der Deckel eine zweite Dichtungskomponente aufweist, die ersten und zweiten
Dichtungskomponenten wechselwirken, um eine Dichtung zu bilden, wenn der Deckel auf
der Basis montiert ist, wobei sich die Dichtung entlang einer Linie von Punkten erstreckt,
die eine nichtplanare Fläche definieren, dadurch gekennzeichnet, dass die ersten und zweiten Dichtungskomponenten sich im wesentlichen normal zur nichtplanaren
Fläche an jedem einzelnen Ort entlang der Dichtung erstrecken.
2. Behälter nach Anspruch 1, dadurch gekennzeichnet, dass die Basis (12) einen Basisrand enthält und der Deckel (14) einen Deckelrand enthält
und dass die erste Dichtungskomponente eine Seite des Basisrands umfasst und dass
die zweite Dichtungskomponente einen Vorsprung umfasst, der sich vom Deckelrand erstreckt,
um sich an die Seite des Basisrands zu lehnen.
3. Behälter nach Anspruch 1, dadurch gekennzeichnet, dass die Basis (12) einen Basisrand enthält und der Deckel (14) einen Deckelrand enthält,
und dass die zweite Dichtungskomponente eine Seite des Deckelrands umfasst und dass
die erste Dichtungskomponente einen Vorsprung umfasst, der sich vom Basisrand erstreckt,
um sich an die Seite des Deckelrands zu lehnen.