This invention relates to improvements in insulating covers for beverage containers, and particularly to an improved insulating cover for use with a bottle containing a cooled beverage such as beer in order to reduce the rate at which the beverage is warmed by ambient heat, by heat transmitted from a surface on which the bottle rests, or by heat conducted from an individual's hand.
Insulating covers for use with beer cans are well known. A typical beer can cover is composed of a laminate of fabric and an insulating foam such as neoprene, formed into a shape that includes a hollow cylindrical part that receives and closely fits all, or at least a lower portion of, the cylindrical part of the beer can, an open top through which the beer can is inserted into the hollow cylindrical part, and a bottom, which can be entirely closed, or which can have a central opening or one or more openings.
Insulating covers for bottles such as beer bottles are formed from materials similar to the materials used for beer can covers. Because a typical beer bottle has a neck that is narrower than the lower part of the bottle, the insulating bottle cover is typically formed in one of two ways. It can have a shape similar to that of the beer can cover, i.e., an open top having a shape and size corresponding to the shape and size of a horizontal cross section of the interior of the cover. An example of a first kind of insulating bottle cover is illustrated and described in U.S. Design Pat. No. D795,025, granted Aug. 22, 2017. This type of cover does not insulate the neck portion of a bottle. A second kind of insulating bottle cover includes a portion fitting the neck of the bottle, but requires a zipper or similar closure device to enable the cover to be fitted onto and removed from, the bottle. Examples of bottle covers having zippered neck-fitting portions are illustrated and described in U.S. Design Pat. No. D666,060, granted Aug. 28, 2012 and in U.S. Pat. No. 6,550,271, granted Apr. 22, 2003.
Both of the above types of bottle covers are closed by insulating material at the bottom in order to limit conduction of heat to the contents of the bottle from a surface on which the bottle is placed.
This invention provides a insulating bottle cover having a neck-fitting portion that does not require a zipper or similar closure device. The bottle cover is simple, inexpensive, decorative, easily manufactured, and easy to use, and provides effective thermal insulation.
The insulating bottle cover in accordance with the invention comprises a flexible sheet of insulating material formed in such a way that it has a hollow, substantially cylindrical portion for fitting a body of a beverage bottle, and a neck portion for fitting the neck of the bottle. The cylindrical portion is substantially uniformly spaced from a central axis. The neck portion extends in the direction of the central axis from the cylindrical portion and has an end opening remote from the cylindrical portion. The neck portion is tapered and its end opening has a maximum dimension transverse to the central axis smaller than the internal diameter of the cylindrical portion. A web portion extends from a first part of an end of the cylindrical portion remote from the neck portion to a second part thereof opposite from the first part. The cover has a bottle-insertion opening at least on one side of the web. The bottle-insertion opening is stretchable to a size sufficient to allow passage of the body of a beverage bottle having a diameter at least as great as the internal diameter of the substantially cylindrical portion.
Preferably, both the cylindrical portion and the neck portion have a permanently continuous perimeter.
In a preferred embodiment, the cover is formed from a unitary sheet of insulating material and has first and second seams, each extending from the end opening of the neck portion to the end of the cylindrical portion remote from the neck portion. These first and second seams are preferably on diametrically opposite sides of the insulating cover. In the preferred embodiment each of the seams is composed of stitches passing through overlapping portions of the flexible sheet located on the interior of the insulating cover.
The width of the web portion, measured in a plane to which said central axis is perpendicular, increases proceeding from locations at which it meets the first and second parts of the cylindrical portion toward an intermediate location between the locations at which it meets the first and second parts of the cylindrical portion.
The sheet from which the bottle cover of the invention is formed can be composed of any of a variety of flexible thermal insulating materials. Known materials used for conventional insulating bottle and can covers can be used. One such material is a laminate of fabric and an insulating foam such as neoprene.
The sheet of insulating material is first cut to a shape corresponding to that shown in
As seen in
After the sheet is cut to the shape illustrated in
There is no stitching along end edge 24 of part 12 and the overlying end edge of part 14, nor is there stitching along the overlying edges 22 and 30 or on the connecting web 16. Thus, an opening 36 is provided at one end of the structure shown in
The cover is then turned inside-out so that the stitching is located inside the cover and hidden from view. The cover can be turned inside-out by stretching the opening 36 and pulling the cover through opening 36 as shown in
As shown in
The cover according to the invention is usable with beer bottles and soft-drink bottles, and larger scale versions can be made with appropriate proportions to fit other bottles such as 0.75 and 1.5 liter bottles.
The cover provides effective insulation by covering all of the bottle except for a portion of the neck extending beyond opening 36, and the two areas adjacent the bottom of the bottle exposed through openings 38 and 40. It is easily fitted onto a bottle, and can be readily removed and re-used. Furthermore, because it does not require a zipper, it can be manufactured inexpensively