Packaged roast and ground coffee

Abstract

A packaged roast and ground coffee product comprising a lightweight, thin-walled reclosable container comprising a moisture barrier and an oxygen barrier, and a quantity of roast and ground coffee disposed within the container. The container comprises a finish having a top surface and one or more snap beads positioned below the top surface. A sealing member may be sealed to the top surface and may include a one-way valve permitting venting of CO.sub.2 resulting from off-gassing of the roast and ground coffee while preventing ingress of air. A removable overcap comprising a top wall and a depending skirt may be affixed to the finish. The skirt may include an inner surface with at least one locking member dimensioned to engage the snap beads in an interference fit. The packaged roast and ground coffee is preferably capable of withstanding stacking loads and loads associated with decreased interior pressure.

Claims

1. Packaged roast and ground coffee comprising: a plurality of lightweight, thin-walled, mass produced, extrusion blow molded wide mouth containers made of laminated plastic material comprising a moisture barrier and an oxygen barrier; a quantity of roast and ground coffee disposed within each said container; each said container having a blow molded container body, the container body comprising a straight wall finish that includes a top surface having a radial dimension that is between 0.045 in. to 0.1 in. and is substantially equal to a thickness of a container wall at an upper end of the container, the straight wall finish defining a wide mouth opening with a diameter of at least 4 in., and a plurality of snap bead segments circumferentially spaced from one another; each container having a sealing member sealed to said top surface, said sealing member having a one-way valve permitting venting of CO.sub.2 resulting from off-gassing of said roast and ground coffee while preventing ingress of air; each container having a removable overcap comprising a top wall and a depending skirt, said skirt having an inner surface with at least one locking member dimensioned to engage one or more of said snap bead segments so that said locking member and said snap bead segments are interengageable between locked and unlocked positions, said overcap being initially removable by application of a cap removal force of between 1.5 lbs. and 10 lbs., wherein a standard deviation of the required initial cap removal force is no more than 1.7 among the plurality of lightweight, thin-walled mass produced containers; said packaged roast and ground coffee being capable of withstanding stacking loads as well as loads associated with decreased interior pressure without permitting ingress of air; said finish being susceptible to radially inward displacement in response to pressure within said container being maintained below external pressure, the magnitude of said radially inward displacement being a function of pressure differential and location on said finish; said radially inward displacement being greatest at said top surface, and decreasing as a function of distance below said top surface; said snap bead segments being spaced below said top surface by a predetermined distance sufficient to avoid radially inward displacement of said snap bead segments that would permit removal of said overcap by application of opening force without audible and tactile indications of interengagement or disengagement of said locking member and said snap bead segments when a pressure differential of 4 psi results in inward deformation of said top surface, wherein the straight wall finish does not have a flange at its top surface, wherein said container body has an average wall thickness that increases from the bottom to the top so that sufficient resistance to buckling is provided in upper regions of the container body that have less support and buckling resistance provided by said coffee, wherein a cross-section of at least one portion of the container body below the straight wall finish has a non-circular shape and forms a handle from the laminated plastic material, and wherein said straight wall finish and the container body are blow-molded from the same laminated plastic material.

2. The packaged roast and ground coffee of claim 1 wherein said top wall of said removable overcap comprises an inner surface having a vent structure overlying said top surface of said finish.

3. The packaged roast and ground coffee of claim 2 wherein said overcap is removable by application of a cap removal force of between 1 lbs. and 9 lbs., after removal of said sealing member.

4. The packaged roast and ground coffee of claim 1 wherein said top surface has a chamfered outer edge.

5. The packaged roast and ground coffee of claim 4 wherein the seal by which said sealing member is sealed to said top surface is capable of maintaining seal integrity when said sealing member is subjected to a pressure differential resulting in a force of up to 135 pounds of pressure.

6. The packaged roast and ground coffee of claim 5 wherein said container has an internal volume of at least 119 oz. and has an empty weight of no more than 6.7 oz.

7. The packaged roast and ground coffee of claim 5 wherein said container has an internal volume of at least 97 oz. and has an empty weight of no more than 5.1 oz.

8. The packaged roast and ground coffee of claim 5 wherein said container is capable of withstanding stacking loads of at least 190 lbs.

9. The packaged roast and ground coffee of claim 8 wherein the sealing member extends radially outward beyond said top surface and downward along the finish within the overcap skirt and has a lower edge disposed above said snap bead segments.

10. The packaged roast and ground coffee of claim 1 having a sealing member removal force of between 2 to 8 lbs.

11. The packaged roast and ground coffee of claim 1 wherein the top surface is a flat, smooth sealing surface.

12. The packaged roast and ground coffee of claim 1 wherein the top surface has a planarity measurement that does not exceed 0.020 inches around any 0.5 inch circumferential length of the top surface.

13. The packaged roast and ground coffee of claim 1 wherein the top surface has a planarity measurement that does not exceed 0.015 inches around any 1.0 inch circumferential length of the top surface or wherein the top surface has a planarity measurement that does not exceed 0.012 inches around any 1.5 inches circumferential length of the top surface.

14. The packaged roast and ground coffee of claim 1 wherein the predetermined distance of said snap bead segments are spaced below said top surface at least 1/16 inches and no more than inches.

15. The packaged roast and ground coffee of claim 1 wherein the radial dimension is between 0.060 inches to 0.090 inches.

16. The packaged roast and ground coffee of claim 15 wherein said plurality of containers comprise 42 containers on a pallet.

17. Packaged roast and ground coffee comprising: a plurality of lightweight, thin-walled, mass produced, extrusion blow-molded wide mouth containers made of laminated plastic material comprising a moisture barrier and an oxygen barrier, each of said containers having an internal volume of at least 97 oz. and an empty weight of no more than 5.1 oz. and having an opening with a diameter of at least 4 in.; a quantity of roast and ground coffee disposed within each said container; each said container having a blow molded container body, the container body comprising a straight wall finish that includes a smooth top surface having a radial dimension that is between 0.045 in. to 0.1 in. and is substantially equal to a thickness of a container wall at an upper end of the container, and a plurality of snap bead segments circumferentially spaced from one another, said smooth top surface having a planarity measurement that does not exceed 0.020 inches around any 0.5 inch circumferential length of the top surface; each container having a sealing member comprising a peelable film membrane sealed to said top surface, said sealing member having a one-way valve permitting venting of CO.sub.2 resulting from off-gassing of said roast and ground coffee while preventing ingress of air, said sealing member being capable of maintaining seal integrity when said sealing member is subjected to a pressure differential of 4 psi resulting in a force of up to 135 pounds, and having a removal force of between 2 to 8 lbs.; each container having a removable overcap comprising a top wall and a depending skirt, said skirt having an inner surface with at least one locking member dimensioned to engage one or more of said snap bead segments so that said locking member and said snap bead segments are interengageable between locked and unlocked positions, said overcap being initially removable by application of a cap removal force of between 2.5 lbs. and 4.5 lbs., wherein a standard deviation of the required initial cap removal force is no more than 1.7 among the plurality of lightweight, thin-walled mass produced containers; said packaged roast and ground coffee being capable of withstanding stacking loads as well as loads associated with decreased interior pressure without permitting ingress of air; said straight wall finish being susceptible to radially inward displacement in response to pressure within said container being maintained below external pressure, the magnitude of said radially inward displacement being a function of pressure differential and location on said finish; said radially inward displacement being greatest at said top surface, and decreasing as a function of distance below said top surface; and said snap bead segments being spaced below said top surface by a predetermined distance sufficient to avoid radially inward displacement of said snap bead segments that would permit removal of said overcap by application of opening force without audible and tactile indications of interengagement or disengagement of said locking member and said snap bead segments when a pressure differential of 4 psi results in inward deformation of said top surface; wherein the straight wall finish does not have a flange at its top surface, wherein said container body has an average wall thickness that increases from the bottom wall to the top surface so that sufficient resistance to buckling is provided in upper regions that have less support and buckling resistance provided by said coffee, wherein a cross-section of at least one portion of the container body below the straight wall finish has a non-circular shape and forms a handle from the laminated plastic material, wherein said straight wall finish and the container body are blow-molded from the same laminated plastic material.

18. Packaged roast and ground coffee comprising: an extrusion blow molded wide-mouth container made of laminated plastic material, the laminated plastic material comprising a moisture barrier and an oxygen barrier, the container comprising: a container body having a bottom wall and a surrounding side wall extending upward from the bottom wall, the bottom wall and the surrounding side wall defining an interior portion of the container, a portion of the surrounding side wall forming a handle such that at least a portion of the surrounding side wall has a non-circular shaped cross section; and a straight wall finish extending from an upper end of the surrounding side wall and defining a circular container opening having a diameter of at least 4 inches, the straight wall finish including: a flat top surface with no flange, the flat top surface having a radial dimension between an inner flat top surface and an outer flat top surface that is between 0.06 inches to 0.09 inches and that is substantially equal to a thickness of the straight wall finish at the upper end of the surrounding sidewall, the flat top surface forming a smooth surface having a planarity measurement that does not exceed 0.020 inches around any 0.5 inch circumferential length of the top surface; and a plurality of snap bead segments circumferentially spaced from one another, the snap bead segments having an outer surface that forms a radial dimension from a center of the container opening that is greater than a radial dimension from the center of the container opening to the outer edge of the flat top surface; a sealing member sealed to said flat top surface, the sealing member having a one-way valve permitting venting of CO.sub.2 resulting from off-gassing of the roast and ground coffee while preventing ingress of air; a removable overcap comprising a top wall and a circular depending skirt, the skirt having an inner surface with at least one locking member dimensioned to engage one or more of the snap bead segments so that the locking member and the snap bead segments are interengageable between locked and unlocked positions, the overcap being initially removable by application of a cap removal force of between 2.5 lbs. and 4.5 lbs.; and a quantity of roast and ground coffee disposed within the container; wherein the packaged roast and ground coffee is capable of withstanding stacking loads as well as loads associated with decreased interior pressure without permitting ingress of air, wherein the straight wall finish is susceptible to radially inward displacement in when the pressure in the internal portion is below external pressure, the magnitude of the radially inward displacement being a function of pressure differential and location on said finish, the radially inward displacement being greatest at the flat top surface and decreasing as a function of distance below the flat top surface, wherein the snap bead segments are being spaced below the flat top surface by a predetermined distance sufficient to avoid a radially inward displacement of said snap bead segments that would permit removal of the overcap by application of an opening force without audible and tactile indications of interengagement or disengagement of the locking member and the snap bead segments when a pressure differential of 4 psi results in an inward deformation of said top surface, and wherein the average thickness of the straight wall finish is greater than an average thickness of the sidewall between the bottom wall and the upper end of the sidewall, wherein the thickness of the straight wall finish improves the buckling resistance of the straight wall finish, and wherein the straight wall finish and the upper end of the surrounding side wall are both blow-molded from the same laminated plastic material.

19. The packaged roast and ground coffee of claim 18, wherein the flat top surface with no flange of the straight wall finish is formed by cutting through the straight wall finish.

20. The packaged roast and ground coffee of claim 17, wherein the standard deviation of the required initial cap removal force is no more than 0.74 among the plurality of lightweight, thin-walled mass produced containers.

21. The packaged roast and ground coffee of claim 20, wherein the standard deviation of the required initial cap removal force is 0.74 among the plurality of lightweight, thin-walled mass produced containers.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) Preferred embodiments will now be described, by way of example only, with reference to the accompanying drawings in which:

(2) FIG. 1 is a perspective view of an unassembled, sealed container and an overcap;

(3) FIG. 2 is a perspective view of an assembled container;

(4) FIG. 3 is an enlarged cross-sectional view of a portion of a removable overcap interacting with a portion of a finish of a container; and

(5) FIG. 4 is a flow diagram illustrating the process of manufacture and shipping.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(6) FIGS. 1 to 4 illustrate a packaged roast and ground coffee product in accordance with a preferred embodiment. As shown in FIG. 1, the packaged roast and ground coffee 100 generally comprises a lightweight, thin-walled container 104, a removable overcap 102, a sealing member 105 or film membrane, and roast and ground coffee 107 disposed within the lightweight, thin-walled container 104.

(7) The removable overcap 102 comprises a top wall 106 and a depending skirt 108. The depending skirt 108 has an inner surface 110 with at least one locking member 112.

(8) The lightweight, thin-walled container 104 preferably comprises laminated plastic material comprising a moisture barrier and an oxygen barrier. The plastic material may comprise, e.g., polyolefins or polyalkenes such as polyethylene, polypropylene, polyvinyl alcohol (PVOH), ethylene vinyl alcohol (EVOH), cyclic olefin copolymer (COC), or polylactic acid (PLA). In one embodiment, the laminated plastic material comprises the following layers, with their approximate thicknesses as a percentage of total thickness indicated, listed in order from interior to exterior:

(9) 1. An inner layer of high density polyethylene (HDPE), 5 to 15%, which may be, e.g., 10%, which functions as a moisture barrier.

(10) 2. A first adhesive or bonding layer, 0.5% to 5%, or e.g., 1.75%;

(11) 3. An oxygen barrier layer of a material such as ethylene vinyl alcohol (EVOH), 0.5% to 5%, or e.g., 1.5%

(12) 4. A second adhesive or bonding layer, 0.5% to 5%, or e.g., 1.75%;

(13) 5. A regrind layer, 40% to 80%, or e.g., 60%; and

(14) 6. An outer layer of HDPE with color, 15% to 40%, or, e.g., 25%.

(15) Other materials having suitable mechanical, chemical and barrier properties may of course be used.

(16) The container 104 defines a circular opening with a diameter D, as illustrated in FIG. 1. The diameter D may be between about 4 to about 6.5 inches and preferably between about 5 to about 6 inches. In some embodiments, the diameter D is at least 4 inches. In some embodiments, the diameter D can be between about 5.4 to about 5.6 inches. The container 104 is a wide mouth container, which can be defined as a container having a diameter D at least about 4 inches or greater. This allows a typical consumer to easily insert a scoop or similar utensil to access the roast and ground coffee. A large opening is especially useful when the level of roast and ground coffee in the container 104 is low, and the user may insert a hand partially or fully into the container 104 to access the roast and ground coffee. Smaller or larger diameters may be used in other embodiments.

(17) The container 104 preferably comprises a straight wall finish 116 that includes a top surface, or sealing surface, 118 and one or more snap bead segments 120 positioned below the top surface 118. The straight wall finish 116 has a narrow seal width at its top surface 118 and does not have a flange at its top surface 118. A plurality of snap bead segments 120 may be circumferentially spaced from one another. The top surface 118 has a radial dimension that may be equal to the wall thickness of the container at its upper end. In some embodiments, the radial dimension is less than 0.10 in. and is substantially equal to the wall thickness. In some embodiments, the radial dimension of the top surface 118 is between 0.045 in. to about 0.1 in. In some embodiments, the radial dimension is between 0.060 in. to about 0.090 in. In these embodiments, the top surface 118 may be formed simply by cutting through the finish 116.

(18) The straight wall finish 116 can have a flat sealing surface at the top surface 118, which does not contain uneven areas or other abrupt changes in the height of the top surface 118, such that the top surface 118 is generally smooth. A smooth top surface 118 facilitates consistently forming a hermetic seal with the sealing member 105. A planarity measurement can be used to quantify the degree of levelness of the top surface 118. A desirable levelness can be defined as a top surface 118 with no abrupt changes in the flatness of the sealing surface 118. In some embodiments the planarity measurement does not exceed 0.020 in. around any 0.5 in. circumferential length of the top surface 118.

(19) In some embodiments, the planarity of the sealing surface 118 does not exceed about 0.015 in. around any 1.0 in. circumferential length of the top of the sealing surface 118.

(20) In some embodiments, the planarity of the sealing surface 118 does not exceed about 0.012 in. around any 1.5 inches circumferential length of the top sealing surface 118.

(21) The container 104 can have an average wall thickness that generally increases from bottom to top such that sufficient resistance to buckling is provided in the upper regions of the container 104, where less support and buckling resistance is provided by the coffee. The coffee provides additional structural support to the lower regions of the container 104 when stacking, where the wall thickness can be less than in the upper regions. The upper regions can be thicker to provide greater support in areas where the coffee is not present. In some embodiments, the container 104 can have an internal volume of at least about 119 ounces and an empty weight of no more than about 6.7 ounces (about 190 grams).

(22) In some embodiments, the container 104 can have an internal volume of at least about 119 ounces and an empty weight of no more than about 6.2 ounces (about 175 grams).

(23) In some embodiments, the container 104 can have an internal volume of at least about 97 ounces and an empty weight of no more than about 5.1 ounces (about 145 grams). Preferably, the container 104 can have an empty weight of between about 130 grams (about 4.6 ounces) to about 190 grams (about 6.7 ounces). If adequate functionality of the container 104 can be achieved, then the empty weight can be even lower.

(24) The finish 116 is susceptible to radially inward creep in response to pressure within the lightweight, thin-walled container 104 being maintained below external pressure. The magnitude of the radially inward creep is a function of pressure differential, length of time exposed to pressure, and location on the finish 116. The radially inward creep is greatest at the top, and decreases as a function of distance below the top surface 118. The top surface 118 may have a chamfered outer edge.

(25) The snap bead segments 120 are spaced below the top surface 118 by a predetermined distance d, as illustrated in FIGS. 1 and 3. The predetermined distance d is sufficient to avoid excessive radially inward displacement of the snap bead segments 120. In other words, the snap bead segments 120 are preferably positioned such that vacuum forces acting upon the sealing member 105 do not substantially affect the overcap fit on the container 104.

(26) Radially inward displacement of the snap bead segments 120 may be considered excessive when the removable overcap 102 may be removed by application of opening force without sufficient audible and tactile indications of interengagement or disengagement of the locking member 112 and the plurality of snap bead segments 120.

(27) The predetermined distance d is preferably such that the sealing member 105 does not interfere with the interengagement or disengagement of the locking member 112 of the removable cap 102 and the plurality of snap bead segments 120. In some embodiments, the predetermined distance d is at least 1/16 in., and preferably at least 3/16 in. and no more than in. The preferred range may be between about in. and about in. In some embodiments, as the distance d becomes larger the opening force becomes greater due to the interference fit between the overcap 102 and the finish 116 becoming tighter.

(28) The sealing member 105, or membrane, is sealed to the top surface 118 of the container 104. The sealing member 105 can extend radially outward beyond the top surface 118 of the container and downward along the finish 116 within the skirt 108 of the overcap 102, and may have a lower edge disposed above the plurality of snap bead segments 120. As noted above, the snap bead segments 120 are preferably positioned below the point at which the sealing member 105 rests on the finish 116 when folded over the sealing surface 118 by the placement of the overcap 102.

(29) The sealing member 105 has a one-way valve 109 that permits egress of CO.sub.2 produced from off-gassing of the roast and ground coffee, while also preventing ingress of air into the container 104. The venting of CO.sub.2 prevents pressure damage to the sealing member 105, the container 104 and the seal therebetween due to pressure build-up, while also preventing ingress of air into the container 104, preserving the freshness and aroma of the roast and ground coffee.

(30) The sealing member 105 may include aluminum foil, plastic, paper-based sealing lidstock, and other similar sealing structures. In some embodiments, the sealing member 105 preferably comprises a metallic barrier layer, such as aluminum laminated to one or more layers of polymeric materials to provide strength and toughness and to facilitate sealing. Polymeric materials that may be usable in this context include polyethylene terephthalate (PET), oriented polypropylene (OPP), polyamide, polybutylene-1, ethylene methacrylic acid, and combinations thereof. Other barrier materials such as EVOH polyamide, metallized PET, metalized polypropylene, metalized OPP, PVOH, and combinations thereof may also be used. The sealing member may also optionally include a pull tab 111 to facilitate opening.

(31) The sealing member 105 may be sealed to the top surface 118 by induction sealing, conduction sealing, impulse sealing, spin welding, adhesives, or other means. As noted above, transportation at varying altitudes may result in an internal pressure lower than the external pressure, creating an internal vacuum. In some cases, the pressure within the container 104 is between 4 and 6 psi below external pressure, and more specifically may be about 5 psi below external pressure. In some embodiments, the internal pressure is about 4 psi below external pressure. The seal is preferably capable of maintaining seal integrity when the sealing member 105 is subjected to expected conditions, such as a force of up to 135 pounds resulting from a pressure differential of up to 5 psi. This enables the packaged roast and ground coffee to remain sealed during and after transportation through regions of varying elevations and altitudes, and thus varying pressures.

(32) The container 104 and the seal also are capable of withstanding stacking loads typically encountered during transport, storage, etc. Such stacking loads may be, e.g., up to about 190 pounds.

(33) The sealing member 105 is preferably easy for the consumer to remove and, to this end, in some embodiments requires an opening force of between about 2 lbs. and about 8 lbs., preferably not greater than about 15 lbs. Some packages require about 9 lbs. removal force to open sealing members 105. In other packages, the removal force may be about 5 lbs., which may be preferable and compliant with current AARP guidelines.

(34) To avoid unacceptable variations in the forces associated with removal and replacement of the overcap 102, it may be desirable to provide flexibility in the interengagement of the overcap 102 and snap bead segments 120. To this end, the non-continuous nature of the plurality of snap bead segments 120 may allow the removable overcap 102 to perform more satisfactorily over a wider range of conditions, such as when dimensional variances within tolerances occur, as it snaps in and out of locked positions during use.

(35) As shown in FIG. 2, when the package is closed, the locking member 112 of the removable overcap 102 and the plurality of snap bead segments 120 on the finish 116 are in a locked position. The locking member 112 and the plurality of snap bead segments 120 interfere with one another when the overcap 102 is moved between locked and unlocked positions.

(36) To remove the overcap 102, the user applies pressure in an upward direction on the skirt 108 of the overcap 102. There will be audible and tactile indications of unlocking as the locking member 112 engages and disengages one or more of the plurality of snap bead segments 120. Under certain circumstances, for example where manufacturing tolerances have permitted more than optimal interference, portions of the locking member 112 may deform inward into the gaps between the snap bead segments 120 to a sufficient degree to reduce resistance from unacceptable levels to acceptable levels as it is pushed upward.

(37) It is desirable that the force required to initially remove the overcap 102 with the sealing member 105 in place, i.e., the initial cap removal force, be about 1.5 to about 10 lbs., and preferably about 2.5 to about 4.5 lbs. The preferred removal force may be chosen to be compliant with current AARP guidelines.

(38) This initial force may be greater than the cap removal force required for reopening after the sealing member 105 has been removed. It is believed that this may be due to the thickness of the sealing member 105. In particular, the pull tab 111 may extend beyond the top surface 118, down the finish 116 and over a region of the snap bead segments 120, and may provide interference between the finish 116 and the overcap 102, creating a tighter fit.

(39) Another reason for the slightly greater removal force may be that sealing of the sealing member 105 to the top surface 118, applies a force to the top surface 118 of the container 104 such that the outer perimeter of the top surface 118 is constrained in a particular configuration, and that after removal of the sealing member, the finish may relax to a slightly different configuration, and/or become more flexible. For example, prior to sealing the sealing member 105, the top surface 118 of the container 104 may not be perfectly circular, e.g., it may have a slightly oval configuration. When the sealing member 105 is sealed to the top surface 118, the top surface 118 may be forced into a substantially circular configuration, and the seal may then hold the top surface 118 of the container 104 in a circular configuration. This can provide a tighter fit with the overcap 102, thus, requiring a slightly greater force to remove the overcap 102 initially, prior to removing the sealing member 105.

(40) When the containers are mass produced, there will be variations in the required initial cap removal force from container to container. It is desirable to avoid excessive variation in required initial cap removal force, and it is desirable that the standard deviation of required initial cap removal force among the containers be no more than about 1.7, and preferably no more than about 0.8.

(41) After initial removal of the cap 102, and after the sealing member 105 has been removed and the cap 102 has been replaced, the force required to again remove the cap 102, i.e., the cap 102 removal force required for reopening, may be less than the required initial cap removal force. It is desirable that the cap removal force required for reopening be between 1 and 9 lbs., preferably between about 2 and about 5 lbs. It is desirable that the standard deviation of the cap removal force required for reopening be no more than about 1.7, and preferably be no more than about 0.8.

(42) As shown in FIG. 4, the containers 104 having a straight wall finish 116 and snap bead segments 120 spaced below the top surface 118 can be mass produced. The containers 104 having such a wide diameter can be made by using extrusion blow molding techniques.

(43) After the containers 104 are made they are filled with coffee 107. The sealing member 105 is sealed to the top surface 118. The overcap 102 is then applied over the sealing member 105. Finally, the containers 104 are transported. Where intermodal shipping is utilized, some containers 104 may be exposed to a pressure differential from travelling over mountains with an altitude of, e.g., about 7000 feet.

(44) As the containers 104 go higher in altitude, the ambient air pressure will decrease and interior pressure of the container 104 will also decrease. On the trip downward, the external air pressure starts to increase. Since the air pressure inside of the container 104 still matches the external air pressure at the highest altitude, the pressure inside of the container is negative, relative to the outside air pressure. Thus, there is a vacuum within the container, pulling the sealing member 105 tighter around the opening and pulling the finish 116 inward.

Example 1

(45) In one example, 42 containers in accordance with one embodiment having a target weight of 143 g were filled, sealed, capped and shipped on the bottom of a two-pallet stack. After shipping that resulted in an internal pressure reduction of about 4 psi below ambient pressure the containers had an average initial cap removal force of 6.58 lbs., with a standard deviation of 0.83.

(46) In comparison, 42 comparative containers were tested that did not have the snap bead segments spaced below the top surface, but rather the snap bead segments were positioned at or adjacent the top surface of the container. These 42 comparative containers also having a target weight of 143 g, were filled, sealed, capped and shipped on the bottom of a two-pallet stack. After shipping that resulted in an internal pressure reduction of about 4 psi below ambient pressure the containers had an average initial cap removal force of about 14.36 lbs., with a standard deviation of 2.10.

(47) Thus, the containers made in accordance with the above embodiment resulted in a significantly lower initial cap removal force.

Example 2

(48) In a second example, 42 containers in accordance with a second embodiment having a target weight of 145 g were filled, sealed, capped and shipped on the bottom of a two-pallet stack. After shipping that resulted in an internal pressure reduction of about 4 psi below ambient pressure the containers had an average initial cap removal force of 6.49 lbs., with a standard deviation of 0.74.

(49) Thus, the initial cap removal force for the containers made in accordance with the above embodiment also had a significantly lower and more predictable removal force than the comparative containers of Example 1.

(50) The cap removal forces may be measured by a device that applies localized upward force to the bottom of the skirt 108 of the overcap 102 in a manner analogous to the application of force by a typical consumer.

(51) To re-lock the overcap 102, the user applies a light pressure downward. As the removable overcap 102 is pressed down, the locking member 112 of the removable overcap 102 engages one or more of the plurality of snap bead segments 120 in an interference fit, then passes over them, locking the container 104 shut, with audible and tactile indications of locking. Again, the non-continuous nature of the snap bead segments 120 may allow the locking mechanism to perform acceptably over a wider range of conditions as the removable overcap 102 snaps into a locked position.

(52) FIG. 3 shows an enlarged cross-sectional view. As shown in FIG. 3, the top wall 106 of the removable overcap 102 comprises an inner surface 110 having a vent structure 300. The vent structure 300 overlies the top surface 118 of finish 116. The vent structure allows CO.sub.2 produced by off-gassing of the roast and ground coffee 107 and released through the one-way valve 109 of the sealing member 105 to escape from the closed, sealed package. This helps control pressure under the overcap 102. The vent structure 300 in the illustrated embodiment comprises a horizontal groove in the underside of the overcap 102. The groove has a vertical dimension 302 that may be, e.g., about 0.004 inches to 0.012 inches. The length or radial dimension of the groove is greater than the radial dimension of the top surface 118. The width of the groove may be about 0.1 inches or greater. In one embodiment, the width of the groove is about 0.1 inches to about 0.3 inches.

(53) While preferred embodiments have been described above and illustrated in the drawings, these are by way of example only and non-limiting. Any one or more of the features described herein may be provided in isolation or in various combinations in any of the embodiments. Any one or more of these features may be removed, substituted for and/or added to any of the feature combinations described. Thus, any of the features of any embodiment may be combined with any other feature from any other embodiment.