The present invention relates generally to handling devices and, more particularly, to a holder for handling a beverage container.
Holders for handling beverage containers such as conventional milk cartons and cylindrical soda plastic bottles of various capacities are known. These known holders typically comprise an attachment means selectively attachable to outer portions of the beverage container, and a handle attached to an outer portion of the attachment means.
While these prior art holders can generally fulfil the main objective of handling a beverage container, they are also often inefficient in executing this very task.
For example, known beverage container holders may not be safe to use when the beverage container has to be tilted almost fully upside down in order to completely empty the beverage content of the container since the latter may potentially slip out of the attachment means.
Furthermore, most known beverage container holders offer little or no thermal insulating means that would help preserve temperature sensitive beverages while out of the refrigerator.
Yet furthermore, most known beverage container holders require removal of the beverage container from the beverage container holder to remove therefrom spillage or condensation that may accumulate in the beverage container holder.
Finally, some known beverage container holders obstruct the view of the expiry or use-by date usually printed along an upper surface portion of the beverage container.
In view of the above, there is a need in the industry for an improved beverage container holder.
An object of the present invention is to provide such a beverage container holder.
In a broad aspect, the invention provides a holder for a beverage container, the beverage container defining substantially opposed beverage container top and bottom portions, the beverage container top portion being provided with a container spout for allowing discharge of a beverage therefrom, the holder defining a holder outer surface and comprising: a receptacle defining a receptacle recess for receiving the beverage container bottom portion, the receptacle recess being delimited by a receptacle bottom wall and a receptacle peripheral wall extending substantially upwardly therefrom; and a container retaining element operatively coupled to the receptacle for engaging the beverage container top portion to maintain the beverage container bottom portion in the receptacle when the beverage container is held by the holder in an operative configuration, the container retaining element being provided with a retaining element aperture positionable substantially in register with the container spout; the holder being provided with a drain, the drain extending between the receptacle recess and the holder outer surface, the holder further comprising a drain closing element movable between drain closing and opening configurations, wherein, in the drain closing configuration, the drain closing element obstructs the drain, and in the drain opening configuration, the drain closing element allows fluid communication through the drain.
The invention may also provide a holder further comprising a holder outer element having a holder outer element body defining at least part of the holder outer surface, the holder outer element body defining a receptacle receiving recess receiving at least part of the receptacle thereinto.
The invention may also provide a holder wherein the holder outer element defines a handle extending from the holder outer element body.
The invention may also provide a holder wherein the container retaining element includes a receptacle lid hingedly mounted to the receptacle through a hinge provided substantially opposed to the receptacle bottom wall, the receptacle lid being movable between lid open and closed configurations, wherein, in the lid open configuration, the beverage container is removable from the receptacle, and, in the lid closed configuration, the beverage container is securely held in the receptacle.
The invention may also provide a holder further comprising a lock for selectively locking the receptacle lid in the lid closed configuration.
The invention may also provide a holder wherein the lock is further operative for selectively locking the receptacle receiving recess.
The invention may also provide a holder wherein the lock includes a tab, the tab being substantially resiliently deformable and extending from the holder outer element body, the tab defining a laterally inwardly projecting tab projection; the receptacle lid defines a receptacle lid central portion and a receptacle lid ledge extending therefrom peripherally relative thereto; and the tab is movable between a tab unbiased configuration and a tab retracted configuration, wherein, in the tab unbiased configuration, the tab projection is substantially in register with and substantially adjacent to the receptacle lid ledge, and in the tab retracted configuration, the tab projection is retracted from the receptacle lid ledge. When the receptacle is inserted in the receptacle receiving recess with the hinge laterally opposed to the tab and the receptacle lid in the lid closed configuration, the tab locks the lid in the lid closed configuration when in the tab unbiased configuration and allows movement of the receptacle lid to the lid open configuration when in the tab retracted configuration.
The invention may also provide a holder further comprising a thermal regulation element inserted between the holder outer element body and the receptacle.
The invention may also provide a holder further comprising a thermal regulation element support for supporting the thermal regulation element.
The invention may also provide a holder wherein the thermal regulation element support is removable from the receptacle and from the holder outer element body; and the thermal regulation element is selectively removable from the thermal regulation element support when the thermal regulation element support is removed from the receptacle and from the holder outer element body.
The invention may also provide a holder wherein the thermal regulation element is provided laterally relative to the beverage container when the beverage container is operative held by the holder.
The invention may also provide a holder wherein the thermal regulation element is provided below the beverage container when the beverage container is operative held by the holder.
The invention may also provide a holder further comprising holder outer element spacers extending from the holder outer element body in the receptacle receiving recess for spacing apart the holder outer element body and the thermal regulation element support from each other with an air gap therebetween.
The invention may also provide a holder further comprising receptacle spacers extending outwardly from the receptacle in the receptacle receiving recess for spacing apart the receptacle and the thermal regulation element from each other with an air gap therebetween.
The invention may also provide a holder further comprising support spacers extending from the thermal regulation element support for spacing apart the thermal regulation element support and the thermal regulation element from each other with an air gap therebetween.
The invention may also provide a holder wherein the drain includes an outer element drain aperture extending through the holder outer element; and the drain closing element is a plug selectively lockable into the outer element drain aperture.
The invention may also provide a holder wherein the beverage container includes markings, the markings being indicative of an expiration date, the markings being provided spaced apart from the spout; and the container retaining element is provided with a retaining element auxiliary aperture positioned to allow inspection of the markings when the beverage container is operatively held by the holder.
The invention may also provide a holder wherein the beverage container is a flexible bag, the retaining element defining a clip for receiving part of the flexible bag therein.
The invention may also provide a holder wherein the clip is provided substantially opposed to the receptacle bottom wall.
The invention may also provide a holder wherein the clip includes two sets of resiliently deformable ribs facing each other, the flexible bag being insertable between the two sets of ribs.
The invention may also provide a holder wherein the ribs within each of the sets of ribs are substantially parallel to each other.
The invention may also provide a holder wherein the ribs from one of the sets of ribs and the ribs from the other one of the sets of ribs converge towards each other in a direction leading away from the receptacle bottom wall.
The invention may also provide a holder wherein the clip includes a set of protrusions facing a set of recesses, each recess from the set of recesses facing a corresponding protrusion from the set of protrusions, the flexible bag being insertable between the set of protrusions and the set of recesses.
Advantageously, the proposed invention facilitates removal from the receptacle of condensation, and also, in some embodiments of spillage that may drip down the side of the beverage container and into the receptacle. Indeed, the drain allows these operations to proceed while maintaining the beverage container secured to the holder.
The present application claims benefit from UK request application 1418929.4 filed Oct. 24, 2014, the contents of which is hereby incorporated by reference in its entirety.
Other objects, advantages and features of the present invention will become more apparent upon reading of the following non-restrictive description of some embodiments thereof, given by way of example only with reference to the accompanying drawings.
The term “substantially” is used throughout this document to indicate variations in the thus qualified terms. These variations are variations that do not materially affect the manner in which the invention works and can be due, for example, to uncertainty in manufacturing processes or to small deviations from a nominal value or ideal shape that do not cause significant changes to the invention. These variations are to be interpreted from the point of view of the person skilled in the art. Also, directional terminology, such as bottom, refers to the holder of the invention in a typical free-standing, upstanding, configuration, resting on a table surface for example, before it is handled to pour a beverage. This reference configuration is for reference and convenience purposes and should not be used to restrict the scope of the claims unless explicitly required by the structure of a specific claim. The reader skilled in the art will understand that the holder may be, in some embodiments, perfectly usable standing on its side when compared to the description below. However, typical use of the holder when no beverage is poured is usually with the holder upstanding as seen the drawings and described below.
Referring for example to
Typically, the beverage container bottom portion 102 is substantially cylindrical, and may be provided with generally convex projections at the bottom thereof, projecting generally downwardly (not shown in the drawings). The beverage container top portion 104 is typically generally frusto-conical and provided at the top end thereof with a container spout 111 for allowing discharge of a beverage from the beverage container 100. The container spout 111 typically includes a pour spout opening 112 and spout cap 114 assembly that is upwardly protruding therefrom, as better seen in
For orientation purposes, and illustrated in
Referring more particularly to
In the specific embodiment of the invention shown in the drawings, the holder 10 also includes other components, such as a holder outer element 60 described in further details hereinbelow. However, in some embodiments, these elements are omitted.
The receptacle 24 is for example represented by an open container defining a receptacle opening edge 28 and a receptacle recess 30 extending inwardly thereof. The receptacle opening edge 28 and the receptacle recess 30 cooperatively form a bore that is shaped and sized for slidably receiving therein, typically in a snug fit relationship, a substantial portion or the whole of the beverage container bottom portion 102. For example, the receptacle recess 30 is delimited by a receptacle bottom wall 31 and a receptacle peripheral wall 33 extending substantially upwardly therefrom.
The holder 10 is provided with a drain 88, better seen in
The holder 10 further comprises a drain closing element 92 movable between drain closing and opening configurations, shown respectively in
The receptacle lid 26 defines a receptacle lid edge 32, a receptacle lid inner space 34, and the retaining element aperture 36 extending substantially opposed to the receptacle lid edge 32. The retaining element aperture 36 is shaped and sized for freely receiving therethrough the beverage container pour spout opening 112 and spout cap 114 assembly. The receptacle lid inner space 34 is delimited by a receptacle lid body 35. For example, the receptacle lid body 35 includes a receptacle lid central portion 37, which is for example and non-limitingly generally frusto-conical, and a receptacle lid ledge 39 extending therefrom peripherally relative thereto, which is for example and non-limitingly generally annular with an upwardly facing top surface. It should be noted that in some embodiments, the receptacle lid ledge 39 extends along only a portion of the receptacle lid central portion 37, as opposed to surrounding the receptacle lid central portion 37 as in the holder 10. The receptacle lid edge 32 and the receptacle lid inner space 34 are shaped and sized so as to substantially adjacently cover the outer surface shape of the beverage container top portion 104, with the beverage container pour spout opening 112 and spout cap 114 assembly protruding outwardly through the retaining element aperture 36.
The receptacle lid 26 is for example hingedly mounted to the holder outer element body 66 through a hinge 46 provided substantially opposed to the receptacle bottom wall 31. The hinge 46 may be any conventional hinge. In the specific example shown in the drawings, with reference to
Furthermore, the receptacle lid edge 32 and the receptacle lid inner space 34 are further suitably shaped and sized so as to allow the receptacle lid 26 to be freely selectively movable between a lid open configuration, as illustrated in
The shell container 22 is for example made of a substantially resilient material, or an assembly of such materials. In other embodiments, the shell container 22 is substantially rigid. In some embodiments, the shell container 22 is made of a thermally insulating material such as, for example, a suitably rigid foam or the like. As would be obvious to someone familiar with thermally insulated container such as commercially available lunch boxes or the likes, the shell container 22 may be made of a composite material composed of an outer plastic shell provided with a thermally insulating inner liner.
In some embodiments, the holder 10 may further comprise a temperature indicator (not shown in the drawings). For example, the temperature indicator may be represented by a temperature sensor provided along an inner surface portion of the receptacle 24, that is operatively coupled through electrical conductors to a low power and battery operated temperature electronic display, such as an electronic liquid crystal display (LCD) or the like. The temperature electronic display may be attached, or otherwise integrated in, a visibly accessible outer surface portion of the receptacle 24. As would be obvious to someone familiar with the art, other types of conventional temperature indicators may be used.
In some embodiments, with reference to
The holder outer element body 62 defines a holder outer element body upper aperture 68 and a receptacle receiving recess 70 extending inwardly downwardly from the holder outer element body upper aperture 68 for receiving at least part of the receptacle 24 thereinto. The holder outer element body 62 also defines a holder outer element body bottom wall 74 and a holder outer element body peripheral wall 72 extending substantially upwardly therefrom and which delimit the receptacle receiving recess 70.
The receptacle receiving recess 70 is typically suitably shaped and sized for substantially freely slidably receiving therein the receptacle 24. In some embodiments (not shown in the drawings), the receptacle receiving recess 70 receives in a snug fit relation at least a lower end portion of the receptacle 24. In other embodiments, a thermal regulation element support 122 insertable between the receptacle receiving recess 70 and the receptacle 24, as detailed in greater details hereinbelow.
The holder outer element body bottom wall 74 is typically suitably shaped and sized for allowing the holder outer element 60 to stably rest on a horizontal support surface such as a table, a kitchen counter, or the likes, with the holder outer element body upper aperture 68 oriented perpendicularly upwardly therefrom.
In some embodiments of the invention, the handle 64 is configured as follows. The handle 64 extends from the holder outer element body peripheral wall 72. Typically, the handle 64 has a substantially arch-shaped configuration with a handle upper end portion 80 thereof substantially adjacent to the holder outer element body upper aperture 68 and a handle lower end portion 78 thereof located below and substantially vertically aligned with the handle upper end portion 80. However, in alternative embodiments, the handle 64 takes any other suitable configuration.
In a specific embodiment of the invention, the tab 67 is represented by a member extending upwardly from the holder outer element body 62 and protruding higher than the holder outer element body upper aperture 68. The tab 67 is movable between a tab unbiased configuration (seen in
The tab 67 is configured and sized so that when the receptacle 24 is inserted in the receptacle receiving recess 70 with the hinge 46 laterally opposed to the tab 67 and the receptacle lid 26 in the lid closed configuration, the tab 67 locks the receptacle lid 26 in the lid closed configuration when in the tab unbiased configuration and allows movement of the receptacle lid 26 to the lid open configuration when in the tab retracted configuration.
An advantage of the present invention resides in that, with the receptacle lid 26 in the lid closed configuration and the receptacle 24 received in the holder outer element 60, when the tab 67 is in the tab unbiased configuration, the tab projection 82 simultaneously locks the receptacle lid 26 in the lid closed configuration and locks the receptacle 24 within the holder outer element body 62. When the tab 67 is moved to the tab retracted configuration, the receptacle 24 may be selectively removed from the holder outer element body 62, the receptacle lid 26 may be moved to the lid open configuration, or both these actions may be performed. Thus, the holder 10 may be used to safely handle a beverage container 100 so as to fully empty the liquid content thereof without risking that the beverage container 100 fall out of the holder outer element 60.
The holder outer element 60 is made of a sufficiently rigid material, or materials, for supporting the combined weight of the receptacle 24 and a filled beverage container 100. Typically, the holder outer element 60 may be represented by a single piece element made of a suitably rigid plastic material using a conventional injection molding process. Other known materials are also possible such as aluminum, a suitable metal alloy, or the likes.
Referring to
The thermal regulation elements 120 are elements that help in regulating the temperature of the beverage contained in the beverage container 100. For example, the thermal regulation elements 120 may be thermally insulating, for example made of foam. In other embodiments, the thermal regulation elements 120 includes a phase change material contained in a container that releases or absorbs heat as it changes phase to respectively heat of cool the beverage. In yet other embodiments, the thermal regulation elements 120 are simply large mass elements that have been previously heated or cooled to respectively heat or cool the beverage. In yet other embodiments, the thermal regulation elements are powered and actively produce heat or absorb heat to respectively heat or cool the beverage.
The thermal regulation element support 122 includes a thermal regulation element support body 124 that delimits a thermal regulation element support recess 126. Peripherally to the thermal regulation element support recess 126, the thermal regulation element support body 124 defines thermal regulation element receiving recesses 128 each for receiving at least one of the thermal regulation support elements 120 therein.
In a specific embodiment of the invention, the thermal regulation element support body 124 has a generally cylindrical configuration defined by a thermal regulation element support body outer wall 130 from which supporting members 132 extending inwardly. Each supporting member 132 extends substantially the whole longitudinal length of the thermal regulation element support body outer wall 130 and has a substantially T-shaped transversal cross-sectional configuration, as seen for example in
In some embodiments, thermal element spacers 134 extend from the thermal regulation element support 122 between the supporting members 132 to space apart the thermal regulation elements 120 from the thermal regulation element support body outer wall 130. The thermal element spacers 134 may take the form of relatively thin ribs 134 each extending longitudinally along the thermal regulation element support 122 to create air gaps 135 between the thermal regulation element support 122 and the thermal regulation elements 120.
At least part of the receptacle 24 is received in the thermal regulation element support recess 126 and at least part of the thermal regulation element support 122 is received in the holder outer element 60. The receptacle 24, thermal regulation element support 122 and holder outer element 60 are typically configured and sized so that they are substantially snugly received within each other. In some embodiments, as seen in
In some embodiments, another thermal regulation element 121 is provide below the thermal regulation element support 122 and is substantially annular. In some specific embodiments, the receptacle 24 is short enough that there is a small gap 123 between the receptacle 24 and the thermal regulation element support 122, as seen in
In some embodiments, spacers are provided to space apart the holder outer element body 62 and the thermal regulation element support 122 from each other and to space apart the receptacle 24 and the thermal regulation element support 122 or thermal regulation elements 120 from each other. For example, holder outer element spacers 136 extend from the holder outer element body 62 in the receptacle receiving recess 70 for spacing apart the holder outer element body 62 and the thermal regulation element support 122 from each other with an air gap 138 therebetween. The holder outer element spacers 136 may take the form of substantially elongated longitudinally extending ribs. In alternative embodiments, the holder outer element spacers 136 are replaced by similar structures extending outwardly from the thermal regulation element support 122. Similarly, receptacle spacers 140, also in the form of elongated relatively thin ribs, extend from the receptacle 24 for spacing apart the thermal regulation elements 120 and the receptacle peripheral wall 33 from each other with an air gap 142 therebetween. The ribs described hereinabove may be replaced by any other suitable shaped structures that create the air gaps 123, 138 and 142.
Referring to
An example of a suitable drain closing element 92 is shown in
A specific and non-limiting example of a drain 88 is now described in greater details. As seen in
Thus, the drain 88 avoids condensated humidity that may form along the cold outer surfaces of the beverage container 100, to trickle down and accumulate within the receptacle 24, which could otherwise be potentially sprayed back up along the inner side wall surfaces of the shell container 22 when a new beverage container 100 is inserted therein. Instead, the holder outer element 60 allows to collect the condensated humidity that drained through the receptacle drain apertures 144 and support drain apertures 146 until it can be selectively drained through the outer element drain aperture 148.
The beverage container 100a is provided with a container spout 111a provided on the front slanted surface 106a. The beverage container 100a is also typically provided with a ridge 118a extending generally upwardly from the junction of the front and rear slanted surfaces 106a and 107a. Typically, the beverage container 100a includes markings 119a, provided on the ridge 118a. The markings 119a are indicative of an expiration date for the beverage contained in the beverage container 100a.
The holder 10a has a shape that generally conforms to that of the beverage container 100a. However, its structure is otherwise similar to that of the holder 10. Since the container spout 111a is not centred relative to the container 10a, the receptacle lid 26a has a retaining element aperture 36a that is also offset relative to the longitudinal axis of the holder 10a. Also, the receptacle lid 26a is provided with a retaining element auxiliary aperture 27a that allows the ridge 118a to protrude from the receptacle lid 26a to allow inspection of the markings 119a when the beverage container 100a is operatively held by the holder 10a.
It is to be understood that, in a similar fashion as in the previously described holders 10, 10a and 10b, other horizontal cross-sectional configurations for the beverage holder 10, 10a and 10b are also possible such as, for example, an oval, an hexagonal, or a triangular horizontal cross-section, or the likes.
The clip 150c includes a substantially elongated clip body 158c defining a clip recess 160c opening substantially downwardly. The clip 150c also includes two sets 162c of resiliently deformable ribs 164c facing each other extending from the clip body 158c. The beverage container 100c is insertable between the two sets 162c of ribs 164c. Typically, the ribs 164c within each of the sets 162c of ribs 164c are substantially parallel to each other. They consist for example of relatively thin blades extending from the clip body 158c into the clip recess 160c. They may be made of a polymeric material or of a metal, among other possibilities. The ribs 164c from both one of the sets 162c of ribs 164c and the ribs from the other one of the sets 162c of ribs 164c converge towards each other in a direction leading away from the receptacle bottom wall 31c. Thus, when the beverage container 100c is inserted between the sets 162c of ribs 164c, gravity tends to pull the beverage container 100c downwardly, which pulls downwardly on the free edge of the ribs 164c. Due to their orientation, the ribs 164c cannot deform to a large extent before the ribs 164c and the beverage container 100c interfere with each other to prevent such large movements, and the small deformation of the ribs 164c secures the beverage container top portion 104c of the beverage container 102c in the clip 150c.
Although the present invention has been described hereinabove by way of exemplary embodiments thereof, it will be readily appreciated that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, the scope of the claims should not be limited by the exemplary embodiments, but should be given the broadest interpretation consistent with the description as a whole. The present invention can thus be modified without departing from the spirit and nature of the subject invention as defined in the appended claims.
Number | Date | Country | Kind |
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1418929.4 | Oct 2014 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CA2015/000541 | 10/19/2015 | WO | 00 |