METHOD AND APPARATUS FOR VACUUM PACKING FOOD CONTAINERS

Abstract

A method and apparatus for reliably vacuum packing any size bottle, jars or bowl. The method being to stack progressively larger overlapping vacuum lids atop one another to fit size opening of a food storage container. The apparatus consisting of an assembly of overlapping circular vacuum lids wherein the bottom surface of each circular vacuum lid is covered with a flexible elastomeric gasket that can form an air-tight seal with either a mating overlapping circular vacuum lid or the opening of a food storage container.

Claims

1. A method for vacuum sealing a continuous range of food storage container openings consisting of placing the first of a plurality of at least two flat-bottom circular vacuum lids, each possessing a hole in its center, and wherein each circular vacuum lid's inside diameter corresponds to the diameter of its hole, and wherein the circular vacuum lid's outside diameter corresponds to the diameter of the opposite edge of the circular vacuum lid, and wherein the inside and outside diameters of each overlapping circular vacuum lid in the vacuum lid assembly are concentric, and wherein the inside and outside diameters of each overlapping circular vacuum lid are different than the inside and outside diameters of other overlapping circular vacuum lids in the vacuum lid assembly, and wherein each circular vacuum lid possesses a laterally extended flange, and wherein the entire bottom surface of each circular vacuum lid is covered by a flexible elastomeric material, and wherein each circular vacuum lid possesses at least one cylindrical rib whose two sides are perpendicular to its laterally extended flanges, over the opening of the food storage container, and then placing a second flat-bottom circular vacuum lid over the hole in the first flat-bottom circular vacuum lid so that the outside diameter of the second circular vacuum lid fully overlaps the hole in the center of the first circular vacuum lid to form an air-tight seal between the first and second circular vacuum lids, and then placing successively smaller circular vacuum lids atop the existing assembly of circular vacuum lids until the entire opening of the food storage container is covered, and wherein a check valve is placed in the hole of the topmost circular vacuum lid in the assembly, and then evacuating air from the food storage container through the said check valve.

2. Apparatus for vacuum sealing a continuous range of food storage container openings, said apparatus being a vacuum lid assembly consisting of a plurality of at least two overlapping circular vacuum lids, each possessing a hole in its center, wherein each circular vacuum lid's inside diameter corresponds to the diameter of its hole, and the circular vacuum lid's outside diameter corresponds to the diameter of the opposite edge of the circular vacuum lid, and wherein the inside and outside diameters of each overlapping circular vacuum lid in the vacuum lid assembly are concentric, and wherein the inside and outside diameters of each overlapping circular vacuum lid are different than the inside and outside diameters of other overlapping circular vacuum lids in the vacuum lid assembly, and wherein each overlapping circular vacuum lid consists of a flat-bottom firm disk possessing a laterally-extending flange, and wherein each overlapping circular vacuum lid possesses a cylindrical rib whose two sides are perpendicular to its laterally-extending flange, and wherein the entire bottom of the flat-bottom firm disk is covered with a flexible elastomeric gasket, and wherein each said flexible elastomeric gasket creates an air-tight seal with either the open mouth of a food storage container, or the top surface of a mating overlapping circular vacuum lid, and wherein at least two of the overlapping circular vacuum lids are stacked atop one another so that the flexible elastomeric gasket of the overlapping circular lid having the smaller outside diameter rests atop the top surface of the overlapping circular vacuum lid having the larger outside diameter, and wherein the circular vacuum lid having the smallest outside diameter corresponds to the innermost circular vacuum lid, and wherein a check valve is placed inside the hole of the innermost circular vacuum lid, and wherein the innermost circular vacuum lid has a circular central section that is raised above its laterally-extending flange.

3. (canceled)

4. (canceled)

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 shows a centermost circular vacuum lid consisting of a centermost firm disk, check valve, and flexible elastomeric material that covers the bottom of the centermost firm disk.

[0010] FIG. 2 shows an intermediate circular vacuum lid consisting of an intermediate firm disk and its mating flexible elastomeric material minimize.

[0011] FIG. 3 shows an alternate embodiment of a medium-size firm disk, possessing two circular ribs, making it stiffer than a medium-size firm disk having only a single circular rib.

[0012] FIG. 4 is an exploded view of a three-component vacuum lid assembly positioned above a large food storage container.

[0013] FIG. 5 shows the three-component vacuum lid assembly depicted in FIG. 4 collapsed down to the planer state it would have when placed atop a large food storage container

DETAILED DESCRIPTION OF THE INVENTION

[0014] The present invention is a vacuum lid assembly (VLA) that consists of two or more overlapping circular vacuum lids wherein the outside diameter of each overlapping circular vacuum lid (or lid for brevity) overlaps the inside diameter of the next-size-larger lid. A first circular vacuum lid is said to overlap a second circular vacuum lid when the outside diameter of the first circular vacuum lid is less than the outside diameter of the second circular vacuum lid, but greater than the inside diameter of the first circular vacuum lid. Each overlapping circular vacuum lid consists of a firm (i.e. stiff, but still flexible) disk, the bottom of which is covered by a flexible elastomeric gasket. The firm disk may be made of metal or a stiff, yet still flexible, plastic. The preferred stiff plastic is Polycarbonate because of its excellent strength and resilience, but other firm plastics may also be used, such as ABS and thermoset materials, for example.

[0015] The overlapping circular vacuum lid having the smallest outside diameter (i.e. the innermost circular vacuum lid) allows the VLA to efficiently mate with small-size food storage containers. The outside diameter of the innermost lid is large enough to cover the openings of Mason jars and other small-size jars, but small enough so that the lid does not extend obtrusively beyond the outside diameters of small-size food storage containers (wherein small-size is herein 6+defined as food storage containers having outside diameters of 10 cm or less). The innermost lid is equipped with a check valve that allows air to exit the food storage container, but prevents air reentry until the user elects to do so.

[0016] Stacking the overlapping lids atop one another extends the outside diameter of the VLA to a size large enough to efficiently cover the opening of any food container of interest, wherein the objective is to minimize the amount that a VLA overhangs the outside diameter of the food storage container atop which it sits. The preferred embodiment of the present invention is a three-lid VLA comprised of overlapping circular vacuum lids that efficiently covers the range of commonly-used bowls and food storage containers. More specifically, the preferred embodiment consists of overlapping small, medium, and large circular vacuum lids having outside diameters of approximately 10 cm, 18.8 cm, and 26 mm, respectively (approximately 4, 7.5, and 10.25 inches). For circular vacuum lids having the outside diameters stated above, the edges of the lids would overhang the outside diameters of mating food storage bowls by no more than 4.4 cm (1.7 inches) on a side, thereby enabling efficient use of space inside refrigerators.

[0017] To resist large vacuum-induced loads, the individual circular vacuum lids are reinforced by circular ribs that inhibit excessive deformations of each circular vacuum lid in the VLA when a vacuum is drawn on the food container atop which the VLA rests. The circular rib also causes the uniformly distributed atmospheric load exerted on the innermost overlapping circular lid to be transferred to the adjoining lid in the VLA stack as a circular line load, which minimizes the net downward deflection (sagging) at the geometric center of two overlapping circular vacuum lids. This benefit occurs for every pair of overlapping circular vacuum lids in the VLA. This approach makes every assembly of overlapping circular vacuum lids stiffer at its geometric center (where bending loads are greatest) than at its periphery (where bending loads are least). This approach moves the area where atmospheric loads are resisted away from the center and outward toward the periphery of the VLA, thereby minimizing central sagging. The same overall benefit could be achieved by a monolithic ribbed VLA, but such a fixed structure would be neither space-efficient nor cost-effective when used on food storage containers having outside diameters much less than that of the monolithic ribbed VLA.

[0018] The flexible elastomeric gasket covering the bottom side of each firm disk enables the firm disk to make air-tight seals with the top surfaces of other firm disks (which is the same as the top surfaces of other overlapping circular vacuum lids) or with the openings of food storage containers. Accordingly, the flexible elastomeric gasket must be soft enough to conform to minute irregularities around the edges of food storage containers openings, and resilient enough to not suffer permanent deformation when compressed by vacuum-induced forces. Gasket materials that are too stiff will allow air to seep through minute irregularities around the edges of food container openings. Permanent deformations also provide leakage paths. Silicone rubber is a material that exhibits good softness and resilience. More specifically, transparent, food-grade solid silicone rubber having a thickness of 1.5 mm and Shore Durometer A hardness between 50 and 55 provides a suitable combination of softness and resilience. A somewhat thicker (3.0 to 5.0 mm) closed-cell silicone foam material can be used for food containers whose openings have rough or irregular edges. Transparent materials are preferred over opaque ones because transparent materials they allow users to visually center the VLA over the opening of the food container, thereby yielding more uniform sealing pressure around the perimeter of the food container opening.

[0019] FIG. 1 shows a centermost circular vacuum lid 1 consisting of a centermost firm disk 2, check valve 3, and flexible elastomeric gasket 8 that covers the bottom of the centermost firm disk 2. The check valve 3 fits in the hole 4 in the center of said centermost firm disk 2 and extends through the bottom of the centermost firm disk 2 and into the food storage container 12. The center most area 5 of the centermost firm disk 2 is elevated above the flange 7 to prevent the bottom of the check valve 3 from contacting food in the storage container 12. A circular rib 6 stiffens the centermost firm disk 2 to minimize the amount that the centermost firm disk 2 deflects downward into the food storage container 12 when a vacuum is drawn on the circular vacuum lid 1. The flexible elastomeric gasket 8 attaches to the flange 7 of the centermost firm disk 2 by means of the collar 10 that wraps around the edge of the flange 7 to form a stretched, interference fit between the flange 7 and collar 10. The collar 10 enables the flexible elastomeric gasket 8 to securely mount to its mating firm disk 2 without employing any other means. The raised center area 9 of the flexible elastomeric gasket 8 conforms to the underside of the center most area 5 of the centermost firm disk 2.

[0020] FIG. 1 also shows an optional filter ring 11. The filter ring 11 secures paper filters (not shown) to the underside of the flexible elastomeric gasket 8. The filter paper may be of the type used to filter coffee grinds and is sandwiched between the underside of the flexible elastomeric gasket 8 and the filter ring 11. The filter ring 11 has tapered sides that allow it to form an interference fit with the center underside of the flexible elastomeric gasket 8, thereby securing the filter paper in place.

[0021] FIG. 2 shows an intermediate circular vacuum lid 13 consisting of an intermediate firm disk 14 and its mating flexible elastomeric gasket 17. The intermediate firm disk 14 has a flange 15 and one circular rib 16 that stiffens the medium-size firm disk 14. The inside diameter of the circular rib 16 is slightly larger than the outside diameter of the collar 10 of the flexible elastomeric gasket 8 shown in FIG. 1, thereby allowing the centermost circular vacuum lid 1 shown in FIG. 1 to nest atop the medium-size circular vacuum lid 13. When nested together, the centermost circular vacuum lid 1 and the medium-size circular vacuum lid 13 form a two-component vacuum lid assembly (two-component VLA). A two-component VLA is suitable for medium-size bowls, where medium-size bowls are herein defined as bowls having outside diameters equal to or less than approximately 18.8 mm (7.5 inches).

[0022] FIG. 3 shows an alternate embodiment of a medium-size firm disk 20, possessing two circular ribs 21 and 22, making it stiffer than the medium-size firm disk 13 depicted in FIG. 2. This medium-size firm disk 20 may be either the outermost component of a two-component VLA, or the intermediate component of a three-component VLA. The geometric center of a three-component VLA will deflect downward more than that of a two-component VLA because of the higher vacuum-induced forces that act on a three-component VLA. Accordingly, it is desirable for the center of a three-component VLA to stand higher above the food storage container so as not to contact food in the food storage container when the food storage container is vacuum packed. The center of a three-component VLA can be raised by turning the medium-size firm disk 20 upside down, and pressing a circular elastomeric boot 23 over its outer circular rib 22. Turning the medium-size firm disk 20 upside down would raise the surface that mates with the bottom of a centermost vacuum lid by the thickness of the height of the circular rib 22. The circular elastomer boot 23 enables the circular rib 22 to form an air-tight seal with the top surface of the mating outermost component of a three-component VLA.

[0023] FIG. 4 is an exploded view of a three-component VLA 24, positioned above a large food storage container 28. The three-component VLA consists of an innermost circular vacuum lid 2, an intermediate circular vacuum lid 13, and an outermost circular vacuum lid 25 stacked atop one another. The flexible elastomeric gaskets 8, 17, and 27 are attached to the centermost firm disk 2; intermediate firm disk 14, and outermost firm disk 25, respectively.

[0024] FIG. 5 shows the three-component VLA 24 depicted in FIG. 4 collapsed down to the planer state it would have when placed atop a large food storage container.

[0025] Numerous modifications to and alternative embodiments of the present invention will be apparent to those skilled in the art in view of the foregoing description. Accordingly, this description is to be construed as illustrative only, and is for the purpose of teaching those skilled in the art the best modes of carrying out the invention. Details of the system may be varied substantially without departing from the spirit of the invention and the exclusive use of all modifications which come within the scope of the appended claims is reserved.