Interlocking beverage holders
10561238 ยท 2020-02-18
Inventors
Cpc classification
A47F7/283
HUMAN NECESSITIES
International classification
Abstract
Interlocking, detachable beverage holders each include a block having a central beverage receptacle that is dimensioned and configured to receive and conform to a wine bottle or similar container. The beverage receptacle is defined by a continuous inner wall having a plurality of ribs longitudinally positioned thereon that stabilize a stored container. Each block exterior includes a plurality of protrusions, notches, rims and concave cleats that seamlessly intermesh with those of other blocks allowing multiple blocks to be interconnected like jigsaw puzzle pieces. Each block contains a refrigerant that reaches a frigid temperature when placed within a freezer to chill a beverage stored within the beverage receptacle.
Claims
1. An interlocking beverage holder comprising: a block having a plurality of outer walls, a bottom surface and an open upper end in communication with a beverage receptacle, said beverage receptacle dimensioned and configured to receive and firmly conform to a beverage container; wherein said beverage receptacle is defined by a continuous, cylindrical inner wall having a plurality of ribs longitudinally positioned thereon that stabilize the beverage container; each of said ribs including a T-shaped base that slides within a mating T-shaped slot on the inner wall to facilitate assembly; a tubular protrusion, a cleat spaced from said protrusion and an interposed notch positioned between each of an adjoining pair of said outer walls, said cleat having a rim that is dimensioned to firmly and slidably seat within the notch on a second said block.
2. The interlocking beverage holder according to claim 1 wherein the cleat includes a concave rear surface that is dimensioned to firmly and slidably receive the tubular protrusion on a second block so that two or more of said block are securely interconnected to form a unitary structure that holds multiple beverage bottles or containers.
3. The interlocking beverage holder according to claim 1 wherein said block includes an interior between said beverage receptacle and said outer walls, said interior containing a refrigerant that reaches a low temperature when placed within a freezer to chill a beverage received within the beverage compartment.
4. The interlocking beverage holder according to claim 1 wherein the open upper end includes a continuous, elastomeric gasket that conceals the ribs to aesthetically enhance the block while also forming a seal around the beverage container.
5. The beverage holder according to claim 1 wherein said block is constructed with food-grade, high-density polyethylene.
6. The beverage holder according to claim 1 wherein the bottom surface includes a plurality of weep holes in communication with an underlying compartment for collecting condensation.
7. The beverage holder according to claim 3 wherein said refrigerant includes carboxymethylcellulose.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
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DESCRIPTION OF THE PREFERRED EMBODIMENT
(5) The present invention relates to a plurality of interlocking, detachable beverage holders that can be combined to form a wine rack or similar storage apparatus. Each holder includes a block 1 having a plurality of outer walls 2, a bottom surface 3 and an open upper end 4 in communication with a beverage receptacle 5 that is dimensioned and configured to receive and firmly conform to a beverage bottle 30 or similar beverage container. The bottom surface includes a plurality of weep holes 28 in communication with an underlying compartment for collecting condensation.
(6) The beverage receptacle 5 is defined by a continuous, cylindrical inner wall 6 having a plurality of ribs 7 longitudinally positioned thereon that stabilize a stored bottle. The relative spacing and the total number of ribs are such that smaller beverage containers cannot fit between an adjacent pair of ribs and shift within the receptacle. Each rib preferably includes a T-shaped base that slides within a mating T-shaped slot 9 on the inner wall 6 to facilitate assembly. The open upper 4 end includes a continuous, elastomeric gasket 10 that conceals the ribs to aesthetically enhance the block while also forming a seal around the circumference of a beverage container.
(7) Between each adjoining pair of sidewalls is a tubular protrusion 11 and a spaced L-shaped cleat 12 with a narrow notch 13 formed therebetween. The protrusion 11, the cleat 12 and the notch 13 preferably extend the entire length of the block from the open upper end 4 to the bottom surface 3. The cleat 12 includes a planar front surface 14, a planar top surface 15 perpendicularly extending from the front surface 14 and a concave rear surface 16 that terminates at the adjoining sidewall. Between the top surface 15 and concave rear surface 16 is a rim 17 that is dimensioned to firmly and slidably seat within the narrow notch 13 in a second block. Likewise, the concave rear surface 16 of the cleat 12 is dimensioned to firmly and slidably receive the tubular protrusion 11 on a second block so that two or more blocks may be securely interconnected to form a unitary structure that can hold multiple beverage bottles or containers. The interlocking protrusions, notches, rims and concave cleats form a secure connection even if multiple connected blocks are being transported in a bag, or are otherwise impacted, overturned, contorted or dropped.
(8) The interior of each block, defined by the space between the outer walls 2 and the inner wall 6, contains a low-freeze-point refrigerant that reaches a frigid temperature when placed within a freezer. The refrigerant also maintains the frigid temperature for a prolonged duration when removed from the freezer to chill a beverage stored in the beverage receptacle. In the preferred embodiment, the refrigerant is carboxymethylcellulose (CMC), which has a low degradation rate and therefore has a longer useful life. Furthermore, CMC has a minimal penetration capability relative to the block material so that an initial supply of the material will remain after numerous freeze cycles. Finally, CMC is completely nontoxic to humans if inadvertently ingested. However, the type of refrigerant can be varied and could include any of those currently used in freezable gel packs.
(9) As is readily apparent from the detailed description above, the present invention provides new and improved interlocking beverage holders that can be easily interconnected to form a storage rack having a desired capacity. Furthermore, one or more holders may be frozen prior to use to chill a beverage being stored in the beverage receptacle. The unique design of the arcuate, interlocking cleats, protrusions, and other mating surfaces significantly reduces injection-molding costs while also forming a secure connection that will not detach when the holders are contorted or impacted. Additionally, the configuration of the interlocking components reduces the overall size of interconnected blocks to allow them to be transported in many conventional bags or other storage containers without disassembling.
(10) The above-described device is not limited to the exact details of construction and enumeration of parts provided herein. For example, although the device has been primarily depicted and described as a wine-bottle holder, the device can be configured to store a myriad of beverage containers, such as other beverage bottles or cans. The block is preferably constructed with food-grade, high-density polyethylene (HDPE) or a similar minimally conductive material. Furthermore, the size, shape and materials of construction of the various components can be varied.
(11) Although there has been shown and described the preferred embodiment of the present invention, it will be readily apparent to those skilled in the art that modifications may be made thereto which do not exceed the scope of the appended claims. Therefore, the scope of the invention is only to be limited by the following claims.