This disclosure is generally directed to apparatus for securing stemware, including, for instance, in the transit (e.g., aviation, maritime, and train) and shipping fields, and more particularly to apparatus for universal stemware storage.
In passenger transit vehicles, such as airplanes, ships, trains, and automobiles, food service items are often provided for passengers and crew, including serving dishes, flatware, and stemware, for example. In most instances, these service items must be secured within the vessel when not in use for the safety of crew and passengers and to prevent breakage of the service items, yet must be accessible to crew members and passengers for use during transit. Accordingly, well-designed storage solutions for each type of service item are desired.
Stemware, in particular, presents a unique storage challenge in passenger transit. Items of stemware are generally not amenable to stacking or nested storage, like most flatware and serving dishes. Furthermore, a single item of stemware generally has numerous components, including a base, a stem, and a bowl, that all may be fragile. Still further, numerous types of stemware may all be stored together (e.g., red wine glasses, white wine glasses, champagne flutes), each having its own base, stem, and/or bowl dimensions.
Accordingly, the inventors of this disclosure have recognized the need for various apparatus to accommodate the shape and size variations between different types of stemware.
The following description of example methods and apparatus is not intended to limit the scope of the description to the precise form or forms detailed herein. Instead the following description is intended to be illustrative so that others may follow its teachings. It should be noted that, throughout the drawings, many elements that are present in numerous drawings are not labeled with the reference numerals of this disclosure in all figures in which those elements appear. This is for clarity of illustration only.
The present disclosure is generally directed toward apparatus for securing and storing stemware. In general, these apparatus may find use in passenger transit vehicles, such as airplanes, ships, trains, automobiles, and the like. Additionally, the apparatus of the present disclosure may find use in commercial shipping (e.g., securing stemware within a box or crate for shipping from a manufacturer or retailer to a customer, for example). However, it will be appreciated by one of the ordinary skill in the art that the disclosed stemware rack may be used in a wide variety of applications, including and in addition to those explicitly mentioned herein. The apparatus of the present disclosure may improve upon known designs by more robustly and securely accommodating a variety of sizes and shapes of stemware, among other things.
An example of an apparatus 10 for securing an item of stemware is illustrated in
Referring to
The base plate 12 of the example rack 10 is a monolithic piece of material having a generally planar surface facing the feet and retainer. Of course, the base plate 12 may alternatively be formed from multiple pieces of material and/or may be contoured, in other examples, as desired. The example base plate 12 defines two apertures 20 through which respective mechanical fasteners may be inserted to couple the base plate 12 to a support surface (e.g., a surface of an airplane, ship, train, or other vehicle, or any other suitable support surface, including but not limited to shelving, counters, etc.) so as to fasten the rack 10 to the support surface, and two additional apertures 22 through which fasteners 24 may be inserted to couple the base plate 12 with the posts 14 (see
The posts 14 of the example rack 10 are coupled to the base plate 12 with mechanical fasteners 24, such as screws, and extend generally perpendicular to the planar surface of the base plate. The example posts 14 are substantially identical cylindrical rigid members made of or comprising metal, such as aluminum. In other examples, the posts 14 may differ from each other and may differ from the exact details of this example. For example, a post 14 may have a shape other than a cylinder. In another example, another metal may be used, or a non-metallic material may be used. For example, a polymer, wood, composite, and/or another suitable material may be used. Still further, in another example, a post 14 may be integrally formed with the base plate 12 and/or the retainer 16.
In another example, the base plate 12 may be omitted, and a support surface may functionally serve as the “base plate.” In such an example, the posts 14 may be coupled directly to the support surface with mechanical fasteners, such as screws, with adhesive, and/or with other suitable coupling means.
With continued reference to
The two arms 28a, 28b of the retainer 16 collectively define the stem receiving space 34. Each arm 28a, 28b includes a respective “top” horizontal surface 25a, 25b, a respective “bottom” horizontal surface 27a, 27b, and one or more respective vertical surfaces 29a, 29b perpendicular to the top and bottom surfaces 25a, 25b, 27a, 27b. The two arms 28a, 28b include substantially mirrored vertical surfaces 29a, 29b that collectively define the stem receiving space 34.
In this example, the stem receiving space 34 comprises a tapered opening 36, a linear portion 38, and an annular portion 40 (see
The arms 28a, 28b of the example retainer 16 extend forward and towards each other from respective lateral portions of the back support 26. Accordingly, the arms 28a, 28b are separated by a generally triangular opening 42 (see
The arms 28a, 28b of the example retainer 16 are elastic and flexible so as to allow the arms 28a, 28b to separate from each other as the stem of an item of stemware is inserted through the linear portion 38 of the stem receiving space 34 and to then elastically return to secure the stem within the annular portion 40 of the stem receiving space 34. As noted above, in the example rack 10, the annular portion 40 of the stem receiving space 34 has a diameter that is larger than the width of at least a part of the linear portion 38. As a result, once the stem of an item of stemware is inserted through the linear portion 38 and reaches the annular portion 40, the arms 28 can elastically flex towards each other so that the annular portion 40 surrounds the stem and the stem cannot inadvertently slide back out through the linear portion 38 of the stem receiving space 34.
The feet 18a, 18b of the example stemware rack 10 are each formed from a monolithic piece of material and are substantially identical to each other in size and shape. Therefore, when an item of stemware is inserted into the rack 10, each foot 18 applies force to the base of the item of stemware towards the base plate 12 of the rack 10 and, once the item of stemware has been fully inserted into the rack 10, to secure the base of the item of stemware between the feet 18a, 18b and the base plate 12. The feet 18a, 18b apply such force independent of each other by virtue of their coupling with different arms 28a, 28b of the rack 10.
Each foot 18a, 18b includes a first, “front” rounded protrusion 44 and a second, “rear” rounded protrusion 46, in the example rack 10 (see
Referring to
The design and configuration of the feet 18a, 18b disclosed herein are exemplary only. In other examples, other features and arrangements of the feet 18a, 18b may be desired. For example, the feet 18a, 18b may be substantially different from each other, may have more or fewer than two protrusions, or may have a generally different shape, size, or design to achieve substantially the same function. Furthermore, more or fewer than two feet 18a, 18b may be used to secure a single item of stemware, in other examples.
Other than the posts 14 and the fasteners 24, 32, the example rack 10 is made from polymer. More specifically, the base plate 12, the retainer 16, and the feet 18a, 18b are made from polymer, such as a polycarbonate resin, such as one available under the trade name LEXAN from Sabic Global Technologies B.V. Particular formulations of LEXAN advantageously have high temperature tolerances, enabling the example rack 10 to pass FAA-required burn tests such that the example rack 10 can be used in aviation applications, but are soft enough not to scratch stemware and are flexible and elastic enough for the operation of the example rack 10 as disclosed herein. In other examples, other appropriate polymers or other materials may be used. In particular, for non-aviation embodiments, a material may be used with a lower temperature tolerance instead of LEXAN.
In the example rack 10, without an item of stemware inserted, the retainer 16 is disposed about 1.0 inches from the base plate 12, and the bottom of the feet 18a, 18b are disposed about 0.125 inches from the base plate 12. In other examples, these distances may be between about 0.5 to 12.0 inches, inclusive, and about 0.125 to 1.0 inches, inclusive, respectively.
The base plate 12′ of the example rack 10′ is a monolithic piece of material having a generally planar surface facing towards the feet 18a′, 18b′. Of course, the base plate 12′ may alternatively be formed from multiple pieces of material and may be contoured, in other examples. The base plate 12′ defines two apertures 20′ through which respective mechanical fasteners (these and other mechanical fasteners are not illustrated with respect to the rack 10′) may be inserted to couple the base plate 12′ to a support surface (e.g., a surface of an airplane, ship, train, or other vehicle, or any other suitable support surface, including, but not limited to, shelving, counters, etc.) so as to fasten the rack 10′ to the support surface. In other examples, the base plate 12′ may be coupled to a support surface with adhesive, friction fit, or other coupling means, and therefore the base plate 12′ may lack apertures for fasteners for such purposes or may include spaces in a configuration different than that illustrated in the figures.
The retainer 16′ of the example rack 10′ is a monolithic piece of material that is generally parallel with the base plate 12′ when the rack 10′ is assembled. The retainer 16′ defines a plurality of apertures and spaces. Four such apertures 30′ (see
The two arms 28a′, 28b′ of the retainer 16′ collectively define the stem receiving space 34′. Each arm 28a′, 28b′ includes a respective “top” horizontal surface 25a′, 25b′ (facing out of the page in the perspective of
The stem receiving space 34′ comprises a tapered opening 36′, a linear portion 38′, and an annular portion 40′ (see
Each lateral support 52a, 52b includes a lateral base portion 54, a post 14′, and a foot 18′, all made from a single monolithic body of material, in the example rack 10′. When assembled, each lateral base portion 54 is arranged generally parallel with the base plate 12′ and includes apertures 56 (see
In another example, the base plate 12′ may be omitted, and a support surface may functionally serve as the “base plate.” In such an example, the lateral supports 52a, 52b may be coupled directly to the support surface with mechanical fasteners, such as screws, with adhesive, and/or with other suitable coupling means.
When an item of stemware is inserted into the rack 10′, each foot 18a′, 18b′ applies force to the base of the item of stemware towards the base plate 12′ and the lateral base portion 54 of the rack 10′. The feet 18a′, 18b′ apply such pressure independent of each other by virtue of their inclusion on separate lateral supports 52a, 52b of the rack.
The example rack 10′ is made from polymer. More specifically, the base plate 12′, the retainer 16′, and the lateral supports 52 are made from polymer, such as a polycarbonate resin, such as one available under the trade name LEXAN from Sabic Global Technologies B.V. In other examples, other appropriate polymers or other appropriate materials, such as wood or composite, may be used. In particular, for non-aviation embodiments, a material may be used with a lower temperature tolerance than LEXAN.
The operation of the rack 10′ will now be described with respect to
Referring to
The racks 10, 10′ are disclosed as examples only. Numerous changes to the example racks 10, 10′ may be made within the scope of the present disclosure. For instance, in one example, a rack may include two arms that define two or more stem receiving spaces, arranged from front to back. Alternatively, in another example, a rack system may be provided for securing multiple items of stemware. One example of such a system will be disclosed with respect to
The system 10″ includes a base plate 12″, a retainer 16″, a plurality of feet 18a, 18b, and a plurality of posts 14. The tops of the posts 14 are coupled to a back support portion 26″ of the retainer 16″, and the bottoms of the posts are coupled to the base plate 12″. The base plate 12″ is formed from a single, monolithic body of material.
The retainer 16″ includes a plurality of arms 28a, 28b, arranged in pairs, with each pair forming a stem receiving space 34. A respective one of the plurality of feet 18a, 18b is coupled to each arm 28a, 28b. The retainer 16″ is formed from a single, monolithic body of material.
As an alternative to the system 10″, a number of racks 10 may be placed together, with separate retainers 16 and separate base plates 12. In yet another alternative, a single monolithic retainer 16″ may be provided, with multiple separate base plates 12, or vice-versa. In still another alternative, the base plate 12″ may be omitted, and a support surface may functionally serve as the “base plate.” In such an example, the posts 14 may be coupled directly to the support surface with mechanical fasteners, such as screws, with adhesive, and/or with other suitable coupling means, so as to arrange the racks 10 in a desired configuration.
Although certain example methods and apparatus have been described herein, the scope of coverage of this patent is not limited thereto. On the contrary, this patent covers all methods, apparatus, and articles of manufacture fairly falling within the scope of the appended claims either literally or under the doctrine of equivalents.
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PCT/US2016/051332 | 9/12/2016 | WO | 00 |
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WO2017/044955 | 3/16/2017 | WO | A |
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