Closure Systems and Insulating Devices Having Closure Systems

Information

  • Patent Application
  • 20180317620
  • Publication Number
    20180317620
  • Date Filed
    November 02, 2016
    8 years ago
  • Date Published
    November 08, 2018
    6 years ago
Abstract
A closure having a first flange with first engagement mechanism and a second with a second engagement mechanism disposed between the first end and the second end. The first engagement mechanism configured to engage the second engagement mechanism. A slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction. The closure is substantially watertight in the closed position.
Description
FIELD

The present disclosure relates generally to closure systems and insulated devices or containers having closure systems.


BACKGROUND

Closure systems exist to close two pieces or sides of material together. In some examples such closure systems open and close an aperture. Many containers, and particularly non-rigid containers composed of materials such as fabric or foams, often include closure systems such as zippers. The closure system may be opened, allowing access to the interior of the closure, or closed, to seal the aperture.


SUMMARY

This Summary provides an introduction to some general concepts relating to this invention in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the invention.


Aspects of the disclosure herein may relate to closure systems including waterproof closure systems, durable closure systems, insulated closure systems, serviceable closure systems, locking closure systems, and flexible closure systems. Additionally, aspects of this disclosure relate to containers, such as insulated containers and coolers, have such closure systems. Additional aspects of this invention are described in greater detail below.


In one example, this disclosure provides a closure system. The closure system may include a first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end; a second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end; the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism; a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction.


The closure system may be substantially watertight in the closed position. The closure system may be watertight up to 7 psi above atmospheric pressure or up to 2 psi to 14 psi above atmospheric pressure.


The first end and the second end of the closure system may comprise a flexible material. Each of the first engagement mechanism and the second engagement mechanism may also comprise a flexible material. The closure system may also include at least one resilient member engaged with the first flange and the second flange, wherein the at least one resilient member is configured to bias the closure system open.


Each of the first engagement mechanism and the second engagement mechanism may include a hollow portion. The hollow portion of each of the first engagement mechanism and the second engagement mechanism may be a vacuum. The hollow portion of each of the first engagement mechanism and the second engagement mechanism may be filled with a polymeric foam.


The closure system may also include a shroud configured to substantially cover the entire first engagement mechanism and the entire second engagement mechanism.


One or more parts of the first engagement mechanism may be configured to removably engage the first flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners, and one or more parts of the second engagement mechanism may be configured to removably engage the second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners. The slider may also be configured to removably engage the first and second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.


The closure system may also include a closure indicator configured to indicate the closure system is in a fully closed position.


The first engagement mechanism and the second engagement mechanism may each comprise zipper teeth. The first engagement mechanism and the second engagement mechanism may each comprise a plurality of rails.


In another example this disclosure provides a container. The container may include an outer shell; an opening extending through the outer shell; and a closure system adapted to substantially seal the opening. The closure system may include a first flange engaged with the container, the first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end; a second flange engaged with the container, the second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end; the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism; a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction;


The closure system may be substantially watertight in the closed position. The closure system may be watertight up to 7 psi above atmospheric pressure.


Each of the first engagement mechanism and the second engagement mechanism may include a hollow portion. The hollow portion of each of the first engagement mechanism and the second engagement mechanism may be filled with a polymeric foam.


One or more parts of the first engagement mechanism may be configured to removably engage the first flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners, and wherein one or more parts of the second engagement mechanism may be configured to removably engage the second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners. And the slider may be configured to removably engage the first and second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.


The container may also include a closure indicator configured to indicate the closure system is in a fully closed position.


The first engagement mechanism and the second engagement mechanism may each comprise zipper teeth. The first engagement mechanism and the second engagement mechanism may each comprise a plurality of rails.


In another example, this disclosure provides a closure system. The closure system may include, a first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end; a second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end; the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism; a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction.


The closure system may be substantially watertight in the closed position up to 7 psi above atmospheric pressure. The first engagement mechanism and the second engagement mechanism may each comprise a plurality of rails. Each of the first engagement mechanism and the second engagement mechanism may comprise a flexible material. Each of the first engagement mechanism and the second engagement mechanism include a hollow portion; and the hollow portion of each of the first engagement mechanism and the second engagement mechanism may be filled with a polymeric foam. One or more parts of the closure system may be configured to be removably engaged with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.





BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing Summary, as well as the following Detailed Description, will be better understood when considered in conjunction with the accompanying drawings in which like reference numerals refer to the same or similar elements in all of the various views in which that reference number appears.



FIG. 1A shows a perspective view of a container having a closure system according to aspects of this disclosure.



FIG. 1B shows a perspective view of a portion of a container having a closure system in an open position according to aspects of this disclosure.



FIG. 1C shows a cross-sectional view of a container having a closure system according to aspects of this disclosure.



FIG. 1D shows a top view of a portion of a container having a closure system according to aspects of this disclosure.



FIG. 1E shows a cross-sectional view of a portion of a container having a closure system according to aspects of this disclosure.



FIG. 2A shows a perspective view of a closure system having a plurality of rails.



FIG. 2B shows a top view of the closure system of FIG. 2A.



FIG. 2C shows a front view of the closure system of FIG. 2A.



FIGS. 3A-3B show partial views of another embodiment of a closure system according to aspects of this disclosure.



FIG. 4 shows a perspective view of a portion of a container having a closure system in an open position according to aspects of this disclosure.



FIG. 5A shows a cross-sectional view of a portion of a container having a closure system according to aspects of this disclosure.



FIG. 5B shows a cross-sectional view of a portion of a container having a closure system according to aspects of this disclosure.



FIG. 5C shows a cross-sectional view of a portion of a container having a closure system according to aspects of this disclosure.



FIG. 6A shows a top view of an exemplary closure system device;



FIG. 6B shows a top view of an enlarged section of the exemplary closure system device of FIG. 4A;



FIG. 6C shows a perspective view of an exemplary slider mechanism for an exemplary closure system;



FIG. 6D shows a top view of another exemplary slider mechanism;



FIG. 7 illustrates another example closure system mechanism.



FIG. 8 shows a perspective view of a container having a closure system according to aspects of this disclosure.





DETAILED DESCRIPTION

In the following description of the various examples and components of this disclosure, reference is made to the accompanying drawings, which form a part hereof, and in which are shown by way of illustration various example structures and environments in which aspects of the disclosure may be practiced. It is to be understood that other structures and environments may be utilized and that structural and functional modifications may be made from the specifically described structures and methods without departing from the scope of the present disclosure.


Also, while the terms “frontside,” “backside,” “top,” “base,” “bottom,” “side,” “forward,” and “rearward” and the like may be used in this specification to describe various example features and elements, these terms are used herein as a matter of convenience, e.g., based on the example orientations shown in the figures and/or the orientations in typical use. Nothing in this specification should be construed as requiring a specific three dimensional or spatial orientation of structures in order to fall within the scope of the claims.



FIG. 1A-1C depict an exemplary container 10, such as an insulating device that may be configured to keep desired contents stored cool or warm for an extended period of time. The container can generally include an outer shell 11, a closure 101, an insulating layer 12, and an inner liner 13. As shown in FIG. 1B, the inner liner 13 forms a chamber or receptacle 14 for receiving the desired contents therein. As shown in FIG. 1A, various handles, straps, and webs can also be included on the container 10 for carrying, holding, or securing the container.


In some embodiments, the container 10, may be an insulating device configured to keep desired contents stored in the receptacle 14 cool or warm for an extended period of time. In one example, the container 10 can also be designed to maintain water inside the inner chamber or receptacle 14, and the container 10 can be configured to be water “resistant” from the outside in. In other words, container 10 can be formed “water tight” inside the inner liner 13, and water cannot leak into the inner liner 13 from the outside or out from the inside of the inner liner 13 when the closure 101 is in the closed position. A cross-section of an exemplary container 10 is shown in FIG. 1C.


In certain Figures herein the closure 101 is shown and described as attached to a container 10. The container 10 may be any suitable size and shape. For example, another exemplary container 10 is shown in FIG. 8 also having a closure 101. While the closures are primarily discussed with reference to a container 10, the closures described herein may be used with any suitable item including for example shirts, jackets, and other apparel items, tents and any other items which may require a closure.


In embodiments discussed herein the container 10 and particularly the closure 101 may have many characteristics. For example, the closure 101 may be safe such that it does not pose any safety concerns from a user's perspective. The closure 101 and container may be safe for the storage of food. The closure 101 and container 10 may be water tight such that water may not enter or exit the container 10 through the closure 101 when the closure 101 in a closed position, and in other embodiments container 10 may be air tight such that air may not enter or exit the container 10 through the closure 101 when the closure 101 in a closed position. Certain manufacturing methods such as radio frequency welding (RF welding) and other techniques described herein may be used to produce water and/or air tight seals. The closure 101 and the container 10 may be durable such that they rarely break or malfunction. The closure 101 and the container 10 may be serviceable such that if they do break or malfunction they may be fixed by a user. The closure 101 may have a smooth operation such that a user may easily open and close the closure 101. The closure 101 may be corrosion-resistant such that it does not contain parts that typically rust or oxidize in outdoor environments. The closure 101 may be abrasion-free such that a user does not experience hand abrasion during use of the closure 101. The closure 101 may also close in a way where the user knows for certain that the closure is 100% sealed. This may include an indicator and/or lock system to ensure the closure is in a fully closed position.


In embodiments, the closure 101 may be customizable or formable such that it may form various shapes including, for example, a U-shape and a shape configured on the perimeter of a container 10, or partial perimeter of a container 10 as shown in FIG. 8. The closure 101 may have a smooth operation and may be lubricant-free such that it does not require lubricant before, during, or after use. For example, the materials used for the closure 101 may include self-lubricating materials or materials that have low friction. Such materials may include certain polymers, polymers that may include certain additives to reduce friction, low friction polymers, thermoplastic polyurethane, and Polytetrafluoroethylene (PTFE). In other examples, the closure 101 may include a coating such as a lubricating paint that may reduce the friction from operation of the closure 101. Additionally, in some examples, the specific shape of the teeth may assist in making the operation of the closure 101 smoother.


The closure 101 and the container may be delamination-free such that any laminated or bonded materials, fabrics, or coatings do not separate. The closure 101 and container 10 may be ultraviolet radiation resistant such that ultraviolet degradation does not occur or is limited when the closure 101 and/or container are exposed to ultraviolet radiation such as sunlight. The closure 101 and/or container may have multiple different color options. The closure 101 and/or container may be sand-proof such that the closure 101 still functions if exposed to sand and/or soil. The container 10 and/or closure 101 may be chemical resistant such that no degradation or limited degradation occurs when the container 10 and/or closure 101 are exposed to chemicals such as soaps, sunscreens, bug sprays, etc. The closure 101 may also provide insulating properties which may prevent the closure 101 and/or container 10 from sweating. The closure 101 and/or container 10 may be flexible such that the closure 101 may be able to bias open and bias closed. Additionally, the closure 101 and/or container 10 may be easy to assemble into a finished product, for example, the closure 101 may include a slider pull which can be attached before or after assembly.


Referring now more particularly to the closure 101, in one example, the closure 101 can be substantially waterproof or a barrier to prevent liquid contents from either entering or exiting through the closure 101. In some embodiments, maintaining the closure 101 in a flat plane can assist in providing a water tight seal, however, in other embodiments the closure 101 can have any shape and maintain a water tight seal. In one example, the closure 101 can be a can be watertight up to 7 psi above atmospheric pressure during testing with compressed air. However, in other examples, the water tightness of the closure 101 can be from 5 psi to 9 psi above atmospheric pressure and in other examples, the water tightness of the closure 101 can be from 2 psi to 14 psi above atmospheric pressure, and in still other examples the water tightness of the closure 101 can be from 1 psi to 15 psi above atmospheric pressure.


As shown primarily in FIGS. 1B, 1D and 1E, the closure assembly 101 can be a waterproof zipper assembly which can include a slider body 103 which may include a pull-tab 102. FIG. 1D shows a magnified view of the closure 101 that includes a bottom stop 104 at a bottom end 104a of the closure. FIG. 1B shows the top end 107 of the closure 101. As shown in FIGS. 1A-1E, the closure 101 may include teeth or a chain 105. In one particular example, the waterproof zipper assembly can be constructed with plastic or other non-metallic teeth 105a and in other examples the teeth 105a may be metallic. In other examples, the closure may seal without using teeth or chain and may include different engagement mechanisms 105. For example, the closure 101 may include a zip lock type sealing mechanism comprising a plurality of rails as shown in FIGS. 2A-2C and as will be described in more detail below.


In another example, as shown in a cross-sectional view in FIG. 3, the closure 201 can include interlocking portions 202 that when pulled together create a watertight seal as described above. The closure 201 shown in FIG. 3 may also include a tightening device 204. The tightening device 204 may include two or more linkages 206 including one or more pivot points 208. The linkages may also be connected to flanges 201a and 201b which are connected to the interlocking portions 202. As shown in FIG. 3, the linkages may be pushed down causing the linkages 204 to straighten which causes the interlocking portions 202 to pull together which may create a watertight and/or airtight seal.


Returning now to FIGS. 1A-1E, as shown schematically, primarily in FIG. 1E, the closure 101 can be provided with a first flange 101a and a second flange 101b, which can in some embodiments form waterproof zipper tape. In some embodiments, and as shown in FIG. 1E, the closure 101 can be attached directly to the container 10 using the first flange 101a and the second flange 101b of the closure 101. In one example, the first flange 101a and the second flange 101b, can be RF welded to the container 10. In other embodiments, the container 10 can be attached to the closure 101 by polymer welding or adhesive. Polymer welding includes both external and internal methods. External or thermal methods can include hot gas welding, hot wedge welding, hot plate welding, infrared welding and laser welding. Internal methods may include mechanical and electromagnetical welds. Mechanical methods may include spine welding, stir welding, vibration welding, and ultrasonic welding. Electromagnetical methods may include resistance, implant, electrofusion welding, induction welding, dielectric welding, RF (Radio Frequency) welding, and microwave welding. The welding can be conducted in a flat or horizontal plane or in other three dimensional shapes. As a result, a rugged watertight seam can be created that prevents water or fluids from escaping from or into the inner chamber 14 of the container 10.


The connection between the closure 101 and the container 10 prevents water or any other fluid from penetrating the seam at pressure up to 7 psi above atmospheric pressure. The container 10, therefore, can be inverted or submerged in water and leakage is prevented both into and out of the internal chamber 104. In one example, the container 10 can be submerged under water to a depth of about 16 feet before water leakage occurs. However, this depth could range from about 11 feet to 21 feet or 5 feet to 32 feet before any leakage occurs.


As discussed above, the closure 101 may be constructed in such a way that it is delamination-free such that any laminated or bonded materials, fabrics, or coatings of the closure 101 do not separate. For example, the closure teeth 105a or other engagement mechanism may be assembled to the respective flanges 101a and 101b in such a way that the teeth 105a or other engagement mechanism are restrained from separating from the flanges 101a and 101b. Advantageously, such constructions methods may allow for increased water resistance of the closure.


In one example, the teeth 105a or other engagement mechanism and the flanges 101a and 101b may be made of weldable material such as certain types of thermoplastic polyurethane. The teeth 105a or other engagement mechanism and the respective flanges 101a and 101b may be welded together forming a bond between the teeth 105a or other engagement mechanism and the respective flanges 101a and 101b. This bond may be watertight and/or airtight as described above.


In another example, the teeth 105a or other engagement mechanism may be integrally formed with the respective flange 101a and 101b. In some embodiments, the teeth 105a or other engagement mechanism may be injection molded as an integral piece with the respective flange 101a or 101b. In such an embodiment, the teeth 105a or other engagement mechanism and the flanges 101a and 101b may be made of a thermoplastic polymer or other suitable material.


As briefly described above, in another example and as shown in FIGS. 2A-2C, the engagement mechanism 105 can comprise a plurality of rails 105b. Similar to the embodiment shown in FIGS. 1A-1E, the closure 101 can be provided with a first flange 101a and a second flange 101b, which can in some embodiments form waterproof zipper tape. Each flange 101a and 101b can include a plurality of rails 105b. As shown in FIG. 2C, the first flange 101a may have three rails and the second flange 101b may have two rails, however, any number of rails 105b may be used. Additionally, as shown in FIG. 2C, one or more of the rails may include a barb 109 which may assist in creating a seal between the two flanges 101a and 101b.


As described above, the rails 105b may be integrally formed with the respective flange 101a and 101b. In some embodiments, the rails 105b or other engagement mechanism may be injection molded as an integral piece with the respective flange 101a or 101b. In such an embodiment, the rails 105b or other engagement mechanism and the flanges 101a and 101b may be made of a thermoplastic polymer or other suitable material.


The closure 101 shown in FIGS. 2A-2C may also include a slider 103. The slider may be configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction. As described in more detail below the slider 103 and other portions of the closure 101 may be removably engaged.


Closure embodiments described herein are not limited to a straight closure 101 as shown for example in FIG. 1A. For example, in some embodiments the teeth 105a, rails 105b, or other engagement mechanism and flange elements 101a and 101b may be molded into a semi-circular shape, three sides of a rectangular shape, a shape which follows a perimeter a the container or any other suitable shape. Furthermore, in certain embodiments, the teeth 105a, rails 105b, or other engagement mechanism need not be uniform as in a typical zipper. For example, in some embodiments, it may be advantageous for a single closure 101 to have teeth 105a having different sizes. This may be helpful, for example, where the closure turns a corner.


In still other embodiments, the teeth 105a, rails 105b, or other engagement mechanism and both flange elements 101a and 101b can be molded in a single integral piece. Such a configuration may provide a tight seal in the closure. In such a configuration, a removable slider, as discussed in more detail below, may be placed on the teeth to complete the closure.


In still another example, the teeth 105a, rails 105b or other engagement mechanism and the respective flanges 101a and 101b may be integrally formed using an extrusion process. In such an embodiment, the flange and teeth portion may first be extruded using standard extrusion techniques. In one example, after the extruded piece exits the extrusion machine, the teeth 105a may be stamped or cut using a die or other similar device.


As discussed above, the closure 101 and/or container 10 may be flexible such that the closure 101 may be able to bias open and bias closed. As shown for example in FIG. 4, a container having a closure 101 is shown in an open position. In some embodiments, the closure 101 may include elements which allow the closure to bias open. For example, in some embodiments, the closure 101 at the bottom end 104a and the top end 107 may be made of a flexible material. In some embodiments, this flexible material may be the same or different than the material used to make the flanges 101a and 101b. In some embodiments this may allow the closure 101 to open at the ends 104a and 107 to an angle of at least 45 degrees and may remain in an open position.


In other embodiments the closure 101 may include a spring or other resilient member that may bias the closure open. In some embodiments the spring or other resilient member may be located at the ends 104a and 107 to bias the closure 101 open. In still other embodiments, a spring or resilient member may be located on the container 10 to bias the closure open when the closure 101 is unzipped.


In still other embodiments, certain parts of the closure 101 including the teeth 105a and/or flanges 101a and 101b may be manufactured of flexible or stretchable material. Advantageously this may allow the closure to deform while staying sealed. Additionally, this may allow for the closure to be shaped in any different shapes as described above.


In some embodiments, as described above, the closure 101 and/or container 10 may provide insulating properties which may prevent the closure 101 and/or container 10 from sweating. In some embodiments, the closure 101, or portions of the closure 101 including the teeth 105a, rails 105b, or other engagement mechanism and/or flanges 101a and 101b, may include materials or additives that may increase the insulative properties of the closure 101.


In some embodiments, as shown for example in FIG. 5A, the closure 101 (including the teeth 105a, rails 105b, or other engagement mechanism and flanges 101a and 101b) may include portions 302 which are filled with a polymeric foam, such as a polyurethane foam which may increase the insulative properties of the closure 101. In other embodiments, as shown for example in FIG. 5B, the closure 101 or portions of the closure 101, including the teeth 105a, rails 105b, or other engagement mechanism and the flanges 101a and 101b, may be formed with internal hollow areas 304. In some embodiments, the hollow areas 304 may include a core reinforcing structure and/or may be in a vacuum which may also increase the insulative properties of the closure.


In still other embodiments, the closure 101 or portions of the closure 101, including the teeth 105a, rails 105b, or other engagement mechanism and the flanges 101a and 101b, may be formed with additives that may increase the insulative properties of the closure 101. These additives may include vacuum insulated micro-spheres, micro-spheres, and foaming agents.


In still other examples, as shown in FIG. 5C, the closure 101 may include a shroud or cover on the inside 308 and/or outside 306 of the closure 101. The shroud may cover portions or all of the closure 101 to provide additional insulation. The shroud 306, 308 may be attached on one side to the container 10 or to the flange 101a, 101b. In some examples the shroud may be made of neoprene or another similar material.



FIGS. 6A-6D depict another example zipper assembly 400 which may be used with embodiments of the closure 101 described above. In this example, the zipper 401 and its components can be configured to be modular or replaceable. In certain situations, one or more components of the zipper 401 can fail for various reasons during the life of the zipper 401. For example, one or more of the zipper teeth 405, the slider body 403, the pull tab 402, the zipper tape 406, the docking station 408, or the bottom stop 404 can each fail during the life of the zipper 401. Nevertheless, this can compromise the entire insulated device, for example, and render it non-functional for its intended purpose and may require the entire insulated device to be replaced in its entirety due to the failure of the closure device. In the example shown in FIGS. 6A-6D, 400, each of the zipper teeth 405, the slider body 403, the pull tab 402, zipper tape 406, the docking station 408, and the bottom stop 404 can be configured to be replaceable in the case that one or more of these components fail or no longer operate properly.


In one example, each one of the zipper teeth 405 can be configured to be individually replaceable. In a specific example, each of the zipper teeth 405 could be removably fastened to the zipper tape 406. For example, although not shown, the zipper teeth 405 can be secured to the zipper tape 406 by one or more of threads, interference fits, ball and socket connections, or bayonet-type connections.


For example, in the case of a threaded connection, each tooth 405 can include one or more threads and the zipper tape 406 can include a threaded socket for receiving the threads of the teeth. It is also contemplated that each tooth 405 can be provided with a threaded socket for receiving external threads on the zipper tape 406. In this example, to replace a particular tooth 405 that is chipped or no longer working, the user can simply unscrew the tooth 405 from the zipper tape 406 and screw in a new tooth to replace the broken or malfunctioning tooth.


In another example, an interference fit may be implemented, where each of the ends of the zipper teeth could be sized larger than corresponding slots or holes in the zipper tape 406. In an alternative example, each tooth 405 could be provided with a detent, which can be received in a corresponding slot in the zipper tape 406. The detent could be formed larger than the corresponding socket in the zipper tape 406, such that the teeth are securely held into place on the zipper tape. Alternatively, the detents could be placed on the zipper tape, such that corresponding slots or holes on each tooth can receive the detents of the zipper tape. In another alternative example, each tooth of the zipper teeth 405 could be provided with a pin or slot and the zipper tape could be provided with corresponding pins or slots for receiving the zipper teeth 405. Additionally, each tooth of the zipper tape 405 could be provided with a ball end or socket end and the zipper tape could include corresponding balls or sockets for receiving each of the zipper teeth 405. Including a bayonet-type connection along with other twist and lock type features are contemplated between the teeth 405 and the zipper tape is also contemplated. In each of these examples, the teeth 405 can snap into place on the zipper tape 405 to give the user a tactile indication that the teeth 405 are properly engaged with the zipper tape 405.


In another example, the teeth 405 can form several teeth sections and the teeth 405 can be placed onto the zipper tape 406 in several different sections. Each section can be configured to be replaceable should one or more of the teeth on a particular section become compromised. Each section can include one or more of threaded, interference fit-type, ball and socket-type, or bayonet-type of connection to the zipper tape 406 in accordance with the examples above.


In addition to the zipper teeth, the slider body 403 can also be configured to be replaceable should the slider body 403 become damaged. The slider body 403 can be configured to connect to the zipper assembly in accordance with the examples provided above. As shown in FIG. 6C, in one specific example, the slider body 403 can include a first flange 403a and a second flange 403b. The flanges 403a and 403b can be held together with a removable fastener 407, or using the various fastening techniques described herein. To remove the slider body 403 from the zipper teeth 405, the removable fastener 407 can be removed or in the case of certain fastening techniques, the slider body 403 can be twisted such that the flanges 403a and 403b can be separated. This allows for the first flange 403a and the second flange 403b to disengage from the zipper and for the slider body 403 to be removed from the zipper. In this way, should the slider body 403 become damaged or if the slider body 403 needs to be replaced, the user can simply remove the fastener from the slider body 403 to replace the slider body with a new slider body.


In another example, the pull tab 402 can be configured to be replaceable should the pull tab become worn or damaged. In this example, the pull tab 402 can also be removably connected to the slider body 403. For example, the pull tab 402 can be connected to the slider body with any of the connections discussed herein. In addition, as shown in the example in FIG. 6D, the pull tab 402 could be connected to the slider body 403 by a spring clip 410 to hold the pull tab 402 in place on the slider body 403. The spring clip 410 can be removable such that the spring clip is biased into a slot located in a housing on the slider body 403 or the pull tab 402. In this way the pull tab 402 is removably fastened to the slider body 403. This allows the user to replace the pull tab 402 when it is needed or desired to replace the pull tab 402 on the slider body 403.


Additionally, the docking station 408 and the bottom stop 404 may also be configured to be removable for repairing purposes. In accordance with the above examples, the zipper docking station 408 and the bottom stop 404 can be secured to the zipper tape 406 by one or more of threads, interference fits, ball and socket connections, or bayonet-type connections, for example. In this way, if either the docking station 408 or the bottom stop 404 fail during use, the user can replace either component in using the removable fastening methods.


In another example, the entire zipper assembly 400 could be replaceable by a removable fastening method. Again, this could be accomplished by any of the removable connections discussed herein, e.g., threaded connections, interference fit-type connections, ball and socket connections, or bayonet-type type of connections. In one example, referring back to FIGS. 6A and 6B the zipper assembly could be configured to be removable at a seam 412 formed between the zipper tape 406 and an insulating device, for example.


In other examples, the zipper assembly can be provided with various visual or audible indicators to indicate the user that the closure device is fully closed. In the example shown in FIG. 7, the zipper assembly 500 can be configured to indicate to the user when the zipper 501 is in the fully closed position. For example, the zipper assembly 500 can provide a visual or audible indication that the zipper is in the fully closed position. In one specific example, the docking station 508 of the zipper assembly 500 can be provided with a certain color such that when the zipper is fully engaged with the docking station, the color is no longer visible.


In another example, the zipper teeth 505 adjacent to the docking station 508 can be a first color and a second color such that when the zipper is fully engaged both colors are visible or only one color is visible to indicate that the zipper is in the fully closed position. In one specific example, a first set of teeth 505a can be provided with a first color and a second set of teeth 505b can be provided with a second color. In this example, the slider body can be configured to cover the second set of teeth 505b such that only the second color is visible. In one example, the first set of teeth can be formed green and the second set of teeth 505b can be formed red. However, any suitable colors are contemplated for the teeth. Alternatively, the slider can be configured to fully close the zipper such that both the first set of teeth 505a and the second set of teeth 505b are visible and the user sees both colors when the zipper is fully closed. Additionally, the first set of teeth 505a and the second set of teeth 505b can be formed of the same color such that the user sees one uniform color when the teeth are fully engaged.


In another example, the underside of the teeth can be provided with a color, such as red, so that when the zipper is fully closed, the user no longer sees red. In this way, the user knows that the zipper is fully closed when the color red, for example, is no longer visible. Alternatively, the zipper teeth could be extruded together such that when the zipper is in the open position a strip of color is exposed until the zipper teeth interlock and cover up example, a strip of color can be applied to the top surfaces of the teeth to indicate to the user that the zipper is fully closed. In another alternative example, the teeth could be formed translucent or transparent, such that an underlying strip of color could be visible through the teeth to indicate that the zipper is fully closed. In this example, the strip of color could be provided on a flap of fabric positioned underneath the zipper for insulation purposes.


Additionally, the slider body can be formed translucent or transparent such that the user can see when the zipper is fully closed and engaged with the docking station 508. In another example, the inside of the insulated cooler can be provided with a light, such as an LED, where the light stays illuminated until the zipper is fully closed. In this example, a switch can be wired such that when the zipper is fully closed, the light turns off. For example, the docking station 508 could include an electrical contact that is engaged by the slider body in order to turn the LED off to indicate to the user that the zipper is fully closed. In this way, the user knows when the zipper is fully closed.


In other examples, the zipper assembly 500 could be provided with a tactile feel to indicate to the user that the zipper is fully closed in conjunction with the above indicators. Also in conjunction with the above visual indicators, the zipper could also be provided with an audible indicator such as a clicking type noise to indicate to the user that the zipper has been fully engaged and is in the closed position.


The present invention is disclosed above and in the accompanying drawings with reference to a variety of examples. The purpose served by the disclosure, however, is to provide examples of the various features and concepts related to the invention, not to limit the scope of the invention. One skilled in the relevant art will recognize that numerous variations and modifications may be made to the examples described above without departing from the scope of the present invention.

Claims
  • 1. A closure system comprising: a first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end;a second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end;the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism;a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction;wherein the closure system is substantially watertight in the closed position.
  • 2. The closure system of claim 1, wherein the closure system is watertight up to 7 psi above atmospheric pressure.
  • 3. The closure system of claim 1, wherein the closure system is watertight up to 2 psi to 14 psi above atmospheric pressure.
  • 4. The closure system of claim 1, wherein each of the first end and the second end of the closure system comprise a flexible material.
  • 5. The closure system of claim 1, further comprising at least one resilient member engaged with the first flange and the second flange, wherein the at least one resilient member is configured to bias the closure system open.
  • 6. The closure system of claim 1, wherein each of the first engagement mechanism and the second engagement mechanism comprise a flexible material.
  • 7. The closure system of claim 1, wherein each of the first engagement mechanism and the second engagement mechanism include a hollow portion.
  • 8. The closure system of claim 7, wherein the hollow portion of each of the first engagement mechanism and the second engagement mechanism is a vacuum.
  • 9. The closure system of claim 7, wherein the hollow portion of each of the first engagement mechanism and the second engagement mechanism is filled with a polymeric foam.
  • 10. The closure system of claim 1, further comprising a shroud configured to substantially cover the entire first engagement mechanism and the entire second engagement mechanism.
  • 11. The closure system of claim 1, wherein one or more parts of the first engagement mechanism is configured to removably engage the first flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners, and wherein one or more parts of the second engagement mechanism is configured to removably engage the second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.
  • 12. The closure system of claim 1, wherein the slider is configured to removably engage the first and second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.
  • 13. The closure system of claim 1, further comprising a closure indicator configured to indicate the closure system is in a fully closed position.
  • 14. The closure system of claim 1, wherein the first engagement mechanism and the second engagement mechanism comprise zipper teeth.
  • 15. The closure system of claim 1, wherein the first engagement mechanism and the second engagement mechanism each comprise a plurality of rails.
  • 16. A container comprising: an outer shell;an opening extending through the outer shell; anda closure system adapted to substantially seal the opening, the closure system comprising: a first flange engaged with the container, the first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end;a second flange engaged with the container, the second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end;the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism;a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction;wherein the container is substantially watertight when the closure system is in the closed position.
  • 17. The container of claim 16, wherein the closure system is watertight up to 7 psi above atmospheric pressure.
  • 18. The container of claim 16, wherein each of the first engagement mechanism and the second engagement mechanism include a hollow portion.
  • 19. The container of claim 18, wherein the hollow portion of each of the first engagement mechanism and the second engagement mechanism is filled with a polymeric foam.
  • 20. The container of claim 1, wherein one or more parts of the first engagement mechanism is configured to removably engage the first flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners, and wherein one or more parts of the second engagement mechanism is configured to removably engage the second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.
  • 21. The container of claim 16, wherein the slider is configured to removably engage the first and second flange with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.
  • 22. The container of claim 16, further comprising a closure indicator configured to indicate the closure system is in a fully closed position.
  • 23. The container of claim 16, wherein the first engagement mechanism and the second engagement mechanism comprise zipper teeth.
  • 24. The container of claim 16, wherein the first engagement mechanism and the second engagement mechanism each comprise a plurality of rails.
  • 25. A closure system comprising: a first flange having a first end, a second end and a first engagement mechanism disposed between the first end and the second end;a second flange having a first end, a second end and a second engagement mechanism disposed between the first end and the second end;the first engagement mechanism configured to engage the second engagement mechanism, and the closure system having an open position wherein first engagement mechanism is substantially disengaged from the second engagement mechanism and a closed position wherein the first engagement mechanism is substantially engaged with the second engagement mechanism;a slider configured to selectively engage the first engagement mechanism and the second mechanism when moved in a first direction and disengage the first engagement mechanism from the second engagement mechanism when moved in a second direction;wherein the closure system is substantially watertight in the closed position up to 7 psi above atmospheric pressure;wherein the first engagement mechanism and the second engagement mechanism each comprise a plurality of rails;wherein each of the first engagement mechanism and the second engagement mechanism comprise a flexible material;wherein each of the first engagement mechanism and the second engagement mechanism include a hollow portion; and wherein the hollow portion of each of the first engagement mechanism and the second engagement mechanism is filled with a polymeric foam; andwherein one or more parts of the closure system is configured to be removably engaged with at least one of: press fitting, snap fit mechanisms or mechanical fasteners.
CROSS REFERENCE TO RELATED APPLICATIONS

This patent application claims the benefit of U.S. Provisional Patent Application No. 62/249,711, filed on Nov. 2, 2015. This application is also related to U.S. application Ser. No. 14/479,607, filed on Sep. 8, 2014, titled “Insulating Container” which is now U.S. Pat. No. 9,139,352; U.S. application Ser. No. 14/831,641 filed on Aug. 20, 2015, titled “Insulating Container”; and U.S. Provisional Application No. 61/937,310, filed on Feb. 7, 2014, titled “Insulating Device.” All of the above applications are incorporated herein fully by reference.

PCT Information
Filing Document Filing Date Country Kind
PCT/US2016/060135 11/2/2016 WO 00
Provisional Applications (1)
Number Date Country
62249711 Nov 2015 US