The present invention generally relates to containers and methods of using same, and more specifically relates to modular containers for use in storing and transporting items such as food and drinks, including containers having modular rigid and/or flexible dividers therein.
Self-supporting multipurpose containers and coverings are used for packing, storing, and transporting food, beverages, and other items that need to kept separate from other items. Existing containers do not provide meaningful versatility and can generally be used only in a few configurations. Existing containers that have multiple compartments are generally incapable of being adjusted, forcing users to employ nonoptimal arrangements that may not suit the items the user wishes to transport. For example, existing containers generally contain one or more pre-defined compartments; users are unable to adjust the configuration of compartments based on the specific item(s) to be transported or stored therein. Alternatively, users may be forced to place different types of items in separate packaging (such as separate plastic bags) in order to keep the items separated within a container. The use of separate packaging is wasteful (as where the packaging is single-use or disposable) and does not adequately retain items within a desired portion of the container.
What is needed is an improved container and a method of using the same to permit the transport of multiple items in separate compartments within a container that may be rearranged to a variety of configurations. The device and related methods described in the present disclosure address the drawbacks of existing designs.
Described herein are containers that have an interior surface configured to secure a rigid or flexible divider in a variety of configurations so as to allow for a reconfigurable interior of the container. The dividers may also include an integrated material such as a gel that can be heated or cooled in order to maintain a desired temperature within the container. The containers also include a lid with an inside surface extending down to engage a top surface of the dividers and thereby establish a plurality of substantially sealed compartments within the container.
Embodiments described herein provide a configurable container that has an interior surface configured to secure one or more rigid or flexible dividers and to allow for reconfigurable interior compartments of the container. The dividers may also include an integrated material such as a gel that can be heated or cooled in order to maintain a desired temperature within the container. The container may include a lid that engages the top surfaces of the dividers to establish a plurality of substantially sealed compartments within the container.
In an embodiment, a container system is provided that comprises a container comprising: a base wall; a peripheral wall extending from the base wall to form a cavity, the peripheral wall comprising a top edge opposite the base wall; and a pair of ridges separated by a groove, the pair of ridges and the groove extending across the base wall and at least a lower portion of the peripheral wall proximate the base wall; and a divider comprising an edge, the edge sized so as to fit within the groove between the pair of ridges.
In another embodiment, a container system is provided comprising: a container comprising a base wall and a peripheral wall extending from the base wall to form a cavity, the peripheral wall comprising a top edge opposite the base wall and at least one first engagement mechanism; and a divider comprising at least one second engagement mechanism, the second engagement mechanism configured to detachably connect to the first engagement mechanism so as to secure the divider within the container.
Other features and advantages of the present invention will become more readily apparent to those of ordinary skill in the art after reviewing the following detailed description and accompanying drawings.
Certain embodiments are shown in the drawings. However, it is understood that the present disclosure is not limited to the arrangements and instrumentality shown in the attached drawings.
For the purposes of promoting and understanding the principles disclosed herein, reference is now made to the preferred embodiments illustrated in the drawings, and specific language is used to describe the same. It is nevertheless understood that no limitation of the scope of the invention is hereby intended. Such alterations and further modifications in the illustrated devices and such further applications of the principles disclosed and illustrated herein are contemplated as would normally occur to one of skill in the art to which this disclosure relates.
The base 102 comprises a floor 104 and a perimeter wall 106 extending upward from the floor 104 to define a cavity. Items to be stored or transported may be placed within the cavity in the base 102. The interior surface 108 of the base 102 comprises a plurality of alternating grooves 110 and ridges 112 which stretch the width of the floor 104 and along at least a portion of the peripheral wall 106. A plurality of spaced apart indentations 114 extend along the interior surface 108 of the peripheral wall 106 above the grooves 110 and ridges 112. In an embodiment, a ridge 115 extends around the peripheral wall 106 above the plurality of indentations 114.
The exterior surface 116 of the base 102 may be generally smooth. Alternatively, the exterior surface 116 may mirror the structure of the interior surface 108, for example by including protrusions corresponding to the plurality of grooves 110 and indentations corresponding to the plurality of ridges 112. As shown, a plurality of feet 118 may extend away from the exterior surface 116 of the floor 104 of the base 102 so as to support the base 102 above a surface (not shown).
The lid 200 is sized so as enclose the cavity in the base 102. The lid 200 comprises a top surface 202 opposite a bottom surface 204 that are separated by an exterior wall 206. As shown, the exterior wall 206 may extend downwards past the bottom surface 204 so as to form a peripheral ridge 208 configured to engage with the peripheral wall 106 of the base 102 and form an airtight seal. A gasket 226 on the peripheral ridge 208 is located so as to contact the peripheral wall 106 when the lid 200 is attached to the base 102. Engagement mechanisms 210 are located on the exterior wall 206 of the lid 200 and are configured to interlock with corresponding receiving portions 120 located on the exterior surface 116 of the peripheral wall 106 of the base 102, thereby securing the lid 200 to the base 102 and sealing the container 100. As shown, the engagement mechanisms 210 are rotably attached to the lid 200; to lock the lid 200 to the base 102, the lid 200 is pressed firmly against the base 102, causing the gasket 226 to depress. In an embodiment, the receiving portions 120 comprise indentations beneath a protrusion or teeth that hold the engagement mechanism in place. The engagement mechanisms 210 are rotated such that they interlock with the corresponding receiving portions 120, and pressure is removed from the lid 200. To remove the lid 200, the process is reversed: pressure is applied to the lid 200, causing the engagement mechanisms 210 to disengage from the corresponding receiving portions 120. The engagement mechanisms 210 are then rotated away from the receiving portions 120, and pressure is removed from the lid 200. The lid 200 can then be lifted off the base 102. In an alternative embodiment, a gasket 226 is not used, and the lid 200 itself is made from a resilient material capable of deforming to form an airtight seal against the base 102.
In an embodiment, the exterior wall 206 of the lid 200 also extends above the top surface 202 of the lid 200, such that the peripheral ridge 208 also extends above the top surface 202 of the lid 200. One or more tabs 222 may extend laterally away from the exterior wall 206 of the lid 200 so as to permit the lid 200 to be easily removed from the container 100 by applying upward force to one or more of the tabs 222 once the engagement mechanisms 210 are disengaged. As shown a single tab 222 may be located at a corner of the lid 200. Alternatively, tabs 222 may be located at each corner of the lid or on other portions of the lid 200.
As shown in
In an embodiment, the lid 200 further comprises a vent 212. An opening (not shown) is formed in the lid 200, and the vent 212 passes through the opening, with an outer section 214 of the vent 212 located proximate the top surface 202 of the lid 200, an inner section 216 of the vent 212 located proximate the bottom surface 204 of the lid 202, and a transverse section 218 extending therebetween through the opening. The outer section 214 and the inner section 216 are both larger than the opening, while the transverse section 218 is sized to fit within the opening, such that the vent 212 is movably attached to the lid 200. The length of the transverse section 218 is greater than the thickness of the lid 200, such that the outer section 214 and the inner section 216 of the vent 212 are incapable of both contacting the lid 200 simultaneously. As shown, the opening is circular. The transverse section 218 has a corresponding circular cross section, with the portion proximate the outer section 214 exactly matching the shape of the opening and a channel 220 beginning at the junction between the transverse section 218 and the inner section 216 and terminating a short distance from the outer section 214. The diameter of the transverse section 218 proximate the outer section 214 may be slightly larger than the size of the opening so as to form an airtight seal with the opening when the outer section 214 is in contact with the top surface 202 of the lid 200. To close the vent 212, the outer section 214 is pressed downwards such that the channel 220 does not extend the length of the opening. To open the vent 212, the outer section 214 is lifted upwards away from the lid 200 such that the channel 220 extends the length of the opening. The friction between the transverse section 218 and the lid 200 is sufficient to hold the vent 212 in place.
As shown, one or more dividers 300 may be placed within the container 100 so as to form distinct compartments. Each divider 300 includes a rim 302 sized to fit within one of the grooves 110 between ridges 112 in the base 102 of the container 100, thereby securing the divider 300 in place. Tabs 304 protrude from opposite sides of the rim 302 and are configured to engage with opposite indentations 114 in the peripheral wall 106 of the base 102 so as to secure the divider 300 in place. In alternative embodiments, only tabs 304 are used to hold the divider 300 in place (and the grooves 110 and ridges 112 may be omitted from the base). Alternatively, the tabs 304 may be omitted from the divider 300, and the divider 300 may be secured simply by inserting the rim 302 into a groove 110. A gasket 306 may be placed along the rim 302 such that the gasket 306 contacts the interior surface 108 of the base 102 when the divider 300 is placed in the base 102. This permits the divider 300 to form an airtight and watertight seal between adjacent portions of the cavity.
In the embodiment shown, the bottom surface 204 of the lid 200 is formed so as to engage the rim 302 of the divider 300, thereby forming a seal with the divider 300. In an alternative embodiment, corresponding grooves and ridges are also formed on the bottom surface 204 of the lid 200 so as to more completely engage with dividers 300 within the container 100. These grooves and ridges may be molded into the bottom surface 204 of the lid 200 so as to be integral parts of the lid 200. Alternatively, the grooves and ridges may be formed as separate pieces that are joined to the lid 200 using glue, adhesive, or another attachment mechanism.
As shown in
The base portion 102 may be made from a suitable material that is substantially rigid such as glass, plastic, or polycarbonate. The lid 200 may be made from a suitable material that is flexible or semirigid such as rubber, silicone, or the like. In embodiments, either the container 100 as a whole or at least the base portion 102 is made from microwave-safe materials.
As shown, viewed from above the base 102 may be generally rectangular in shape with rounded corners. Alternative shapes may also be used, such as squares, circles, or the like. An alternative embodiment featuring a substantially square horizontal cross section is depicted in
In an embodiment, at least one of the dividers 520 comprises a freezer divider. The freezer divider 520b includes a thermal material configured to maintain a desired temperature, such as a freezable gel. For example, the freezer divider 520b may be placed in a freezer to cool the thermal material prior to being placed in the container. In an embodiment, thermal material is located proximate a first side of the freezer divider 520b, and a layer of insulation is located proximate a second, opposite side of the freezer divider 520b such that a first compartment proximate the first side of the freezer divider is maintained at a temperature different than that of a second compartment located proximate the second side of the freezer divider 520b. In an embodiment, the base 502 is insulated so as to better maintain a desired temperature within the cavity. Alternatively, at least one of the dividers 520 may comprise a silicone divider 520a configured to take up as little space as possible within the container 500.
A tray divider 524 having a plurality of sides that define a tray cavity having an open end facing the lid may also be placed within the cavity. As with the dividers 520, the tray divider 524 includes a perimeter wall 522 that is sized and shaped so as to be complementary to and to interlock with the plurality of waves 518 on the interior surface 514 of the base 502. In an embodiment, the interior surface of the lid 504 also comprises waves 518, such that the lid 504 may interlock with a divider 520. Optionally, the tray divider 524 may include a lid (not shown) configured to interlock with the lid 504 of the container 500. Advantageously, at least a portion of the interior surface of the lid 504 may be configured to engage at least a portion of a top surface of the tray divider 524 to close the tray cavity within the cavity.
The base 802 comprises a floor 804 and a perimeter wall 806 extending upward from the floor 804 to define a cavity. Items to be stored or transported may be placed within the cavity in the base 802. The interior surface 808 of the perimeter wall 806 comprises a plurality of attachment points 810 which extend from the perimeter wall 806. As shown, each attachment point 810 may comprise a rounded terminal portion 812a connected to the perimeter wall 806 by a narrow rectangular neck 812b. Objects (such as dividers 1000 or cups 1100) to be connected to a first engagement mechanism 810 comprise complementary second engagement mechanisms 1002 configured to engage with first engagement mechanisms 810. In the embodiment shown, the first engagement mechanism comprises an enlarged terminal portion 812a and a narrow neck portion 812b. The second engagement mechanism 1002 comprises a complimentary structure sized and shaped so as to engulf the terminal portion 812. To connect the engagement mechanisms 810, 1002, the second engagement mechanism is placed above and aligned with the terminal portion 812a before being slid down the length of the terminal portion 812a until it rests on the floor 804. The second engagement mechanism 1002 can only be removed by lifting it out of the container 800. In alternative embodiments, other complementary structures are used for the engagement mechanisms 810, 1002 such as but not limited to snap-locks or the like. The remainder of the interior surface 808 may be smooth.
The exterior surface 818 of the base 802 may be generally smooth. A plurality of feet 120 may extend away from the exterior surface 818 of the floor 804 of the base 802 so as to support the base 802 above a surface (not shown).
The lid 900 is sized so as enclose the cavity in the base 802. The lid 900 comprises a top surface 902 opposite a bottom surface 904 that are separated by an exterior wall 906. As shown, the exterior wall 906 may extend downwards past the bottom surface 904 so as to form a peripheral ridge 908 configured to engage with the perimeter wall 806 of the base 802 and form an airtight seal. One or more tabs 912 extend away from the lid 900 to enable the lid 900 to be easily detached from the base 802. A gasket may be located on the peripheral ridge 908 so as to contact the perimeter wall 806 when the lid 900 is attached to the base 802. Engagement mechanisms 910 are located on the exterior wall 906 of the lid 900 and are configured to interlock with corresponding receiving portions 820 located on the exterior surface 816 of the perimeter wall 806 of the base, thereby securing the lid 900 to the base 802 and sealing the container 800. As shown, the engagement mechanisms 910 are rotably attached to the lid 900; to lock the lid 900 to the base 802, the lid 900 is pressed firmly against the base 802, causing the gasket to depress. The engagement mechanisms 910 are rotated such that they interlock with the corresponding receiving portions 820, and pressure is removed from the lid 900. To remove the lid 900, the process is reversed: pressure is applied to the lid 900, causing the engagement mechanisms 910 to disengage from the corresponding receiving portions 820. The engagement mechanisms 910 are then rotated away from the receiving portions 820, and pressure is removed from the lid 900. The lid 900 can then be lifted off the base 802. In an alternative embodiment, a gasket is not used, and the lid 900 itself is made from a resilient material capable of deforming to form an airtight seal against the base 802.
Dividers 1000 may be placed in the base 802 so as to form distinct compartments within the cavity. In a preferred embodiment, dividers 1000 are made from a flexible material (such as food-grade silicone) such that compartments of various shapes and sizes may be formed by bending a divider 1000. In an embodiment, the dividers 1000 are made from a semirigid material such that the divider 1000 can be bent but will retain its shape once placed in a configuration. In an alternative embodiment, the dividers 1000 are rigid and can connect only to engagement mechanisms 810 on opposite sides of the base 802. Each divider 1000 includes one or more engagement mechanisms 1002 configured to connect with the engagement mechanisms 810 in the container 800. In the embodiment shown, each engagement mechanism 1002 comprises a semicircular protrusion 1002 configured to surround the terminal portion 812a of an attachment point 810. In alternative embodiments, other structures are used that allow the divider 1000 to removably engage with attachment points 810 in the container 800. In alternative embodiments, the dividers may be configured to attach to one another, allowing for a greater variety of shapes and arrangements of compartments. In an embodiment, the lid 900 comprises one or more channels 914 on the bottom surface 904 of the lid 900 which are configured to receive an upper edge of the divider 1000, thereby forming a substantially airtight seal between the lid 900, the divider 1000, and the base 802.
As shown in
As shown in
As shown, for example in
In alternative embodiments, the container 2000 further includes a compartment cavity 2200 comprising a plurality of sides that define a cavity 2202. The compartment cavity 2202 is removable from the container, and at least one external surface of one of the plurality of sides of the compartment cavity 2202 includes a first engagement mechanism 2204 that is configured to engage with a second engagement mechanism of a divider 2104. For example, a circular-shaped compartment cavity 2202 may have a plurality of first engagement mechanisms 2204 on its external surface, and there may be a plurality of dividers 2100 that have a first end engaged with the internal surface of the perimeter wall 2002 of the container 2000 and a second end engaged with first engagement mechanisms 2204 on the external surface of the compartment cavity 2202.
It is understood that the preceding is merely a detailed description of some examples and embodiments of the present invention and that numerous changes to the disclosed embodiments may be made in accordance with the disclosure made herein without departing from the spirit or scope of the invention. The preceding description, therefore, is not meant to limit the scope of the invention but to provide sufficient disclosure to allow one of ordinary skill in the art to practice the invention without undue burden. It is further understood that the scope of the present invention fully encompasses other embodiments that may become obvious to those skilled in the art and that the scope of the present invention is accordingly limited by nothing other than the appended claims.
This application claims the benefit of and priority from U.S. Provisional Application Ser. No. 62/566,127, filed on Sep. 29, 2017, the contents of which are hereby fully incorporated herein by reference in their entirety.
Number | Date | Country | |
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62566127 | Sep 2017 | US |