The present invention is broadly concerned with containers of the type normally utilized in a kitchen environment for the storage of foodstuffs. More particularly, the invention is concerned with seals for such containers.
The conventional seals, for the most part, are adapted to snap-lock to the container rim and, depending upon the nature of the specific seal, provide particular advantages including an effective sealing capability, ease of mounting and/or removal, the capability of accommodating itself to overloaded containers, and the like.
Of interest with regard to the known prior art, is U.S. Pat. No. 6,260,729 B1, issued Jul. 17, 2001, to Mitchell et al. which discloses a one-piece highly elastic sealing cover wherein both the corrugated central panel and peripheral integral bead are elastically stretchable outwardly to both conform to different size and shape containers and laterally expand to accommodate foodstuffs projecting above the top rim of the container. A similar product is sold by a company known as EMSA which is a flaccid sheet with an integral peripheral bead, much in the manner of a bathing cap or shower cap, which can be stretched over the top of a container regardless of variations in the container configuration.
One-piece seals with central panels which flex slightly to assist in mounting the seal will be noted in U.S. Pat. No. 3,679,088, issued Jul. 25, 1972, to Swett et al and U.S. Pat. No. 3,692,208, issued Sep. 19, 1972 to Croyle et al.
In achieving a superior seal, the present invention proposes a seal which is both particularly user friendly and uniquely capable of adjustment to accommodate, through an effective variation in the head space of a container, to both overfilled and underfilled conditions. In other words, were the foodstuff within the container to project above the rim of the container, the seal, and more particularly the flexible central panel thereof, will elastomerically flex or deform upwardly to enclose the overfill. Should the container products occupy less than the full capacity of the container, the flexible central panel need merely be manually depressed inwardly into the container to reduce the head space and forcibly expel air from the head space. Upon release of the downward push on the panel, a tendency for the flexible panel to elastically return to its at rest position will be resisted by the partial vacuum or underpressure created by the expelled air. Basically, by creation of the partial vacuum, the ambient pressure or pressure outside of the container will be greater than pressure within the container. Thus, the seal central panel will remain flexed inwardly in its depressed position reducing the head space and attaining the advantages thereof including stabilization of the container contents and whatever preservation advantages might be achieved by the partial vacuum or underpressure created.
The superior seal of the invention, in addition to the flexible central panel, specifically provides a rigid or substantially rigid peripheral mounting ring to which the separately formed central panel is fixedly bonded, preferably by melt bonding.
The mounting ring is of a fixed predetermined shape-sustaining configuration and mounts to a container rim of conforming configuration and size by snap locking thereto much in the manner of a conventional container seal. The nature of the mounting ring, referred to as rigid or substantially rigid, is such as to be of a fixed configuration with a minimal degree of lateral elastic bendability to allow the snap locking to a container rim. This will also allow for what is frequently referred to as a “burping” action in mounting the seal to an underfilled container. No awkward stretching or other manipulation is required, and a user familiar with the conventional container seal will similarly encounter no difficulties in the mounting and removal of the improved seal of the invention.
The flexible central panel, whether flexing automatically to accommodate overfill or manually flexed to accommodate underfill, flexes relative to and independently of the rigid mounting ring.
As an example of materials considered appropriate for the seal, a silicone central panel can be used with a polybutylene terepthalate (PBT) ring. These materials are compatible from a molding standpoint. Other materials include a thermoplastic urethane (TPU) or thermoplastic elastomer (TPE) central panel with a polypropylene (PP) ring. Other appropriate materials incorporating the required characteristics of the seal of the invention can of course be used.
Other details, objects and advantages of the invention will become apparent from the more complete description following hereinafter.
Referring now more specifically to the drawings, the seal 10, as illustrated in
The seal 10 is basically formed of two components, a substantially rigid peripheral mounting ring 16 and a flexible elastomeric central panel 18. While the term “ring” is used to refer to the substantially rigid edge or peripheral lip component 16 of the seal 10, it is to be appreciated that this “ring” is not limited to an annular configuration, but rather, depending upon the configuration of the rim 14 of the container, can be of any other appropriate shape including oval, rectangular, and the like.
Noting the cross-sectional detail of
The inner flange 22, inwardly of the ring wall 20, is upwardly offset to define a downwardly opening pocket 32 within which the rim engaging undersurface 30 of the inner flange is defined. An upwardly directed seat 34 extends to the inner end 36 of the inner flange 22. The seat 34, at the inner end thereof, defines an abutment 38, which extends upwardly into a protective bead 40. The total inward projection of the upper flange 22 peripherally about the ring 16, while sufficient as to position the inner peripheral edge 36 of the inner flange 22 in inwardly spaced relation to both the inner face 26 of the ring wall 20 and the container rim 14, extends, as illustrated radially inward for only a very minor portion of the diametric extent of the mounting ring 16.
The flexible central panel 18 is, at rest, configured in a manner whereby the peripheral edge portion 42 thereof is received on the ring seat 34, engaging the full radial width thereof and abutting against the seat formed abutment 38 slightly below the protective bead 40. This peripheral edge portion 42 will also include a depending annular bead or beaded portion 46 which engages against the inner edge 36 of the upper flange 22 upon a full seating within the flange seat 34. As illustrated in particular in
When positioned as above described, the overlying flange seat 34 and central panel peripheral edge portion, including the engaged beveled faces 48, are intimately bonded together by melt bonding or any other appropriate bonding process. Thus formed, the seal 10, notwithstanding the unique relationship of components, and the attendant advantages derived therefrom, will mount in the manner of a conventional container seal, snap locking into position upon manual pressure on the peripheral mounting ring.
The central panel 18 is of an appropriate molded flexible resilient material capable of lateral deflection, both upward, to accommodate an overfill condition in the container 12, and downward to accommodate an underfilled condition, relative to the mounting ring 16 and to a generally central plane defined by the inner peripheral edge 36 of the inner flange 22 of the mounting ring. This flexure takes place inward of the flange inner edge 36 relative to the mounting ring and is accomplished without any corresponding disruptive movement of the mounting ring. This is distinctly contrary to the substantially more rigid central panels of some of the prior art which, while in some instances are manually deflected, do so to specially cause a corresponding deflection in the sealing periphery of the seal to either mount or facilitate removal of the seals.
The flexible central panel, as the mounting ring is snapped into engagement with the container rim, will flex upward and accommodate itself to the height and shape of overfill. In an underfill situation, after the seal is mounted, downward manual pressure on the central panel will cause a forced or pressurized expelling of air, i.e. “burping”, from the head space past the normally sealed sealing surfaces of the mounting ring and container rim. Upon release of the manual downward force on the central panel, the downwardly flexed central panel is retained in position in light of the partial vacuum or underpressure created by the expelling of air from the head space and the resealed mounting ring. Thus, all of the advantages of reduced head space, including content stabilization, increased shelf life, a partial vacuum environment, and the like, are obtained in a simple and effective manner.
As an alternate possible manner of mounting the seal to accommodate an underfill, the central panel can be downwardly depressed and manually held in this position as the ring is snap-locked to the container rim. After mounting, the central panel, in light of the elastic memory of the material, will tend to move outward, thus creating the desired partial vacuum or reduced pressure relative to the ambient atmospheric pressure. This in turn will maintain the central panel depressed.
Referring to
In order to facilitate the application of equalized and evenly distributed manual pressure in an underfill situation, the central area 52 of the central panel 18, as noted in
As a variation, and noting
As illustrated in
Referring now specifically to
As with the first described embodiment, the flexing of the central panel occurs inwardly of the inner edge of the upper flange 72 relative to the mounting ring and independent of the mounting ring so as to not affect either the sealing or the positioning of the mounting ring. As desired, the central area of the central panel 62 can also be provided with a rigid or substantially rigid disc or medallion similar to the medallion 54 of the first embodiment.
As will be recognized from the foregoing, the invention is both particularly user friendly in that the seal mounts and is removable from a container in the manner of a conventional seal and at the same time provides for distinct advantages in accommodating both container overfill and underfill. In those situations wherein an underfilled container is to be accommodated, one need merely mount the seal in the conventional manner and then depress the flexible central panel, which action reduces the head space and creates a partial internal vacuum or underpressure with the attendant advantages of product stabilization and enhanced product preservation.
The foregoing is illustrative of the principles of the invention. While specific embodiments have been illustrated, other embodiments as encompassed within in the scope of the appended claims will occur to those skilled in the art and are deemed to fall within the scope of the invention.
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Number | Date | Country | |
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20040206765 A1 | Oct 2004 | US |