An insulated beverage holder formed from neoprene and including a seal located at the upper opening of the housing. The seal can extend above the housing and can include an upper insertion portion and a lower sealing portion. The insertion portion helps ease the insertion of a beverage container int
An insulated beverage holder formed from neoprene and including a seal located at the upper opening of the housing. The seal can extend above the housing and can include an upper insertion portion and a lower sealing portion. The insertion portion helps ease the insertion of a beverage container into the holder and the sealing portion produces a watertight seal of the holder to the beverage container. An ice and water mixture can be placed into the holder prior to inserting the beverage container to provide cooling of the beverage while it is being consumed.
대표청구항▼
The invention claimed is: 1. A holder for use with a beverage container, comprising: a watertight housing that includes a tubular sleeve and bottom, said sleeve having first and second ends with said sleeve being open at said first end and being closed off by said bottom at said second end, said sl
The invention claimed is: 1. A holder for use with a beverage container, comprising: a watertight housing that includes a tubular sleeve and bottom, said sleeve having first and second ends with said sleeve being open at said first end and being closed off by said bottom at said second end, said sleeve comprising a closed cell foam rubber; and an upper seal located adjacent said first end of said sleeve, said upper seal comprising a closed cell foam rubber and being permanently attached to an inner surface of said sleeve adjacent said first end, said seal extending radially inwardly of said sleeve, said upper seal including an upper insertion portion and a separate lower sealing portion each of which includes a radially inwardly-facing surface with said inwardly-facing surface of said upper insertion portion exhibiting less friction than said inwardly-facing surface of said lower sealing portion, said upper insertion portion being attached to said inner surface of said sleeve at a location above said lower sealing portion and extending outwardly from said sleeve beyond said first end, and wherein said housing and seal are so dimensioned relative to the beverage container such that, when the beverage container is inserted into said first end, said sleeve and said seal provide a radially-inward force on the beverage container that forms a watertight connection between said seal and the beverage container, said watertight connection being sufficient to suspend the beverage container within said housing such that a bottom of the beverage container is spaced above said bottom of said housing and is unsupported within said holder, wherein said watertight connection in combination with said watertight housing forms a sealed refrigerant space extending from said bottom of said housing to said upper seal; wherein said inwardly-facing surface of said upper insertion portion comprises a different material than said inwardly-facing surface of said lower sealing portion; wherein said upper insertion portion comprises a ring of closed cell foam rubber having its inwardly-facing surface being formed of a material having a low coefficient of friction relative to said inwardly-facing surface of said lower sealing portion; and wherein said lower sealing portion comprises closed cell foam rubber having its inwardly-facing surface formed from an exposed portion of the foam rubber and said inwardly-facing surface of said ring comprises a fabric. 2. An insulated holder for maintaining a beverage contained within an aluminum can at a reduced temperature relative to an ambient temperature, said insulated holder comprising: a watertight housing that includes a bottom and a tubular sleeve, said sleeve having first and second ends with said sleeve comprising a cylindrical tube of closed cell foam rubber that is elastic and that is open at said first end and is closed off by said bottom at said second end, wherein said bottom is attached to said sleeve at said second end by a watertight adhesive; and an upper seal located adjacent said first end of said sleeve, said upper seal comprising a closed cell foam rubber directly attached via adhesive to an inner surface of said sleeve adjacent said first end, said seal extending radially inwardly of said sleeve, said upper seal including an insertion portion and lower sealing portion, said lower sealing portion having a radially inwardly-facing surface comprising unlaminated neoprene, said upper insertion portion being located above said lower sealing portion and extending outwardly from said sleeve beyond said first end and having an inner surface that flares upwardly and outwardly in a direction away from said first end; wherein said insertion portion has a radially inwardly-facing surface that, during insertion of the aluminum can into said housing, exhibits less friction between the aluminum can and said inwardly-facing surface than exists between the aluminum can and said lower sealing portion, and wherein said housing and upper seal are so dimensioned relative to the aluminum can such that, when the aluminum can is inserted into said first end, said sleeve and said upper seal provide a radially-inward force on the aluminum can that forms a watertight connection between said lower sealing portion and the aluminum can said watertight connection being sufficient to suspend the aluminum can and beverage within said housing such that a bottom of the aluminum is spaced above said bottom of said housing, wherein said watertight connection in combination with said watertight housing forms a sealed refrigerant space extending from said bottom of said housing to said upper seal. 3. An insulated holder as defined in claim 2, wherein said closed cell foam rubber of said sleeve and upper insertion portion comprises neoprene. 4. An insulated holder as defined in claim 2, wherein said closed cell foam rubber of said upper seal has an elongation property of greater than 25% and a compression deflection within the range of 2-9 psi. 5. An insulated holder as defined in claim 4, wherein said elongation property is within the range of 400-600% and said compression deflection is within the range of 2-5 psi. 6. An insulated holder as defined in claim 2, wherein said insertion portion is tapered radially inwardly in a direction extending from said first end towards said second end. 7. An insulated holder as defined in claim 2, wherein said upper seal extends outwardly from said sleeve beyond said first end. 8. An insulated holder for maintaining a beverage contained within an aluminum can at a reduced temperature relative to an ambient temperature, said insulated holder comprising: a watertight housing that includes a bottom and a tubular sleeve, said sleeve having first and second ends with said sleeve comprising a cylindrical tube of closed cell foam rubber that is open at said first end and is closed off by said bottom at said second end, wherein said bottom is attached to said sleeve at said second end by a watertight adhesive; and an upper insertion portion comprised of elastic closed cell foam rubber located adjacent said first end of said sleeve, said upper insertion portion being attached to an inner surface of said sleeve adjacent said first end, and said upper insertion portion extending radially inwardly of said sleeve and outwardly from said sleeve beyond said first end, said upper insertion portion having an inner surface that flares upwardly and outwardly in a direction away from said first end; a lower sealing portion directly attached via adhesive to the inner surface of said sleeve adjacent the upper insertion portion and being positioned lower than said upper insertion portion, wherein said upper insertion portion has a radially inwardly-facing surface that, during insertion of the aluminum can into said housing, exhibits less friction between the aluminum can and said inwardly-facing surface than exists between the aluminum can and said lower sealing portion, and wherein said housing and lower sealing portion are so dimensioned relative to the aluminum can so as to provide a radially-inward force on the aluminum can that forms a watertight connection between said lower sealing portion and the aluminum can when the aluminum can is inserted into said first end, said watertight connection being sufficient to suspend the aluminum can and beverage within said housing such that a bottom of the aluminum can is spaced above said bottom of said housing and out of contact with said holder, wherein said watertight connection in combination with said watertight housing forms a sealed refrigerant space extending from said bottom of said housing to said lower sealing portion. 9. An insulated holder as defined in claim 8, wherein said lower sealing portion has an inner diameter that is greater than an inner diameter of the upper insertion portion.
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이 특허에 인용된 특허 (24)
Shimazaki, J. John, Beverage bottle cooling method and apparatus with assembly for holding ice and water.
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Kohl, Korey V.; Iverson, Robert A.; Veltrop, Loren; Lyons, Christopher B.; Van Erden, Donald, Drop-in passive thermal insert for food service counters.
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