Patent Grant
9975674
The following is a description of the invention provided to aid those skilled in the art in practicing in the field of the present invention. Those of ordinary skill in the art may make modifications and variations in the embodiments described herein without departing from the spirit or scope of the present invention. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for describing particular embodiments only and is not intended to be limiting of the invention. All publications, patent applications, patents, figures and other references mentioned herein are expressly incorporated by reference in their entirety.
The present invention is generally in the technical field of beverage containers, and, more particularly, is in the field of lids for beverage containers.
Consumers burning their lips, tongue, mouth, arms, legs, and torso from hot coffee, tea and other beverages continues to be a problem. The principal source of such scaldings have been believed to be scalding hot liquid in combination with lid, cup, or lid/cup sets that are designed allow drinking through the lid while retain heat.
Change in this field has been slow. The first beverage lid that allowed consumption of the liquid without removing the top was originally invented by Roy Irvin Stubblefield in 1934 (U.S. Pat. No. 2,003,657). The liquid was drawn through a slit depressed by the consumer's mouth. It wasn't until more than thirty years later that the first major improvement was made by Alan Frank, who invented the peel back opening in 1967 (U.S. Pat. No. 3,421,681A). It took another decade before the next major improvement, namely a tab to hold the Frank's peeled back opening so it didn't have to be torn off or held open (U.S. Pat. No. 3,994,411A).
What followed since then are dozens of variations on the Stubblefeld's lid, offering a wide variety of configurations, from the dome lid, to re-closeable drinking openings, to temperature sensing, specialized labeling, and even a number of complicated attempts at providing a cooling capability.
The most economical of existing lids is typically manufactured with two openings—the drinking opening and the vent opening. The vent opening is usually pin-sized and placed substantially in the middle of the lid, but may be found elsewhere on the lid. It is made purposefully small in order to serve the three purposes of syphoning the outside air into the container to replace the consumed beverage, preventing spillage, and as pressure release if the drinking opening is plugged.
It is undisputed that even with conventional lids the user is able to cool down the beverage by blowing outside air into the drinking opening. However, most of the high-humidity air merely swirls around the surface of the beverage and remains inside the container, which has a nominal effect on cooling down the beverage.
Other prior art directed towards solving the problem of cooling down hot beverages include: Reservoir cooling; heat transfer at the point of consumption; bellows cooling; and ridge cooling.
Reservoir cooling suffers firstly, from requiring the beverage to initially escape from the inner portion of the container, thereby creating a possibility of spillage as there is nothing to prevent overflow. Secondly, the reservoir can only hold a small amount of fluid, which means that the invention would have no effect on the temperature of the consumed beverage if the user sipped in more fluid than the volume of the reservoir. Thirdly, the container needs to be constantly tipped upward, which is both impractical and dangerous in driving applications. And fourthly, the process of manufacture is significantly more complicated and costly. See U.S. Pat. No. 6,176,390 B1, US20060037962 A1, US20090108006 A1, US20090108006 A1, U.S. Pat. No. 8,267,275 B2, US20120080441 A1, WO2009055067 A2, WO2004047596 A1, U.S. Pat. No. 8,459,491 B2, U.S. Pat. No. 6,488,173 B2.
Heat transfer at the point of consumption cooling suffers firstly, from the fluid consumed during the initial stage of each sip cannot be sufficiently cooled as the cooling airflow is yet to be drawn over the liquid. Secondly, the hot vapor is directed towards the consumer's mouth, rather than in the opposite direction, which can amplify the scalding effect of the hot beverage. See U.S. Pat. No. 7,185,781, U.S. Pat. No. D704,054 S, U.S. Pat. No. 8,881,938 B2, US20140042178 Al.
Bellows cooling suffers firstly, from a mechanically complex device, which significantly increases the cost of manufacturing. Secondly, it is bulky, which, in turn, negatively affects the cost of stacking, storage and transportation. And thirdly, and more importantly, the device is unsafe for driving applications as it requires the user to use both hands: one hand to hold the cup and the other to push the bellows. See U.S. Pat. No. 8,322,562 B2.
Ridge cooling suffers firstly, from a mechanically complex device, which increases the cost of manufacturing. Secondly, the invention comprises a protruding lip which extends beyond the dimensions of the cup, causing an unconventional displacement when in daily use. See US20080217345 A1.
See also U.S. Pat. No. 6,929,143 B2, U.S. Pat. No. 6,260,727 B1, U.S. Pat. No. 4,589,569 A, US2007/0075080 Al, none of which provide a cooling mechanism.
At the heart of the present invention is my discovery that another source of scalding is that economically produced lids provide no uncomplicated method for the consumer to simply, effectively, inexpensively, safely, and conveniently finely control the rate at which the liquid temperature decreases, thereby achieving a rapid and personalized optimal temperature for consumption.
In accordance with the invention, then, a lid is provided which allows the consumer, in one economical configuration, to blow air across the contents to cool it, and sip liquid contents, with ease.
If desired, particular embodiments may optionally include a method and/or mechanism for directing the exhaust away from the consumer's face.
The present embodiment is a beverage lid that empowers the consumer to simply, effectively, inexpensively, safely, and conveniently finely control the rate at which the liquid temperature decreases, thereby achieving a rapid and personalized optimal temperature for consumption.
Typically, in order to accelerate cooling a hot beverage, the consumer will either dilute the beverage by adding cold water, ice or more milk than desired, thereby reducing the palatability of the beverage, or open the container to let the beverage cool down, which is often impractical and can result in a messy spillage causing skin burns or clothing stains. Other prior art, not widely in use, as described above, may also enable faster cooling, albeit at the price of a complicated apparatus that is bulky, expensive to produce, and/or inconvenient and potentially unsafe—especially when driving.
The present embodiment describes an improved lid for hot beverage containers that enables the user to cool down the hot beverage without removal of the lid by blowing air across the surface of the beverage. Adding an adequately sized and appropriately positioned exhaust opening creates an escape route for high-humidity hot air, allowing it to be displaced by low-humidity cooler air blown into the other opening. The embodiment is elegant, as simple to manufacture as the current market dominant lid configurations, cost effective, and convenient.
In an exemplary embodiment, the drinking opening and/or exhaust opening are angled to direct the high-humidity hot air away from the consumer's face.
Referring to
Cup, 9, is shows for exemplary purposes and is disclaimed.
One exemplary mode of carrying out the embodiment, though not exclusively, is manufacture of the lid, substantially as depicted in
With lids having sidewalls, 3 of
One variation is to angle either or both openings so as to direct the driven exhaust, 4, away from the face of the consumer, as depicted in
As noted, depending on the embodiment, either opening may be used for drinking or blowing. Another variation is to have neither opening angled.
It is not necessary that the two openings be of the same shape and size.
In some exemplary embodiments of a lid having no sidewall,
In some exemplarily embodiments, the airflow opening comprises a plurality of pin-sized perforations. Each pin-sized perforation may be comparable in size with the standard vent opening in widespread use, or larger as needed to allow for sufficient throughput, and are best if small enough so that the liquid does not spill out in significant quantities if the container tilts or tips over. The plurality of the perforations combined together allows airflow sufficient to enable the humidity displacement at normal blowing pressure. The actual configuration of the plurality of holes can vary to any number and at any angle relative to the drinking opening.
In some exemplarily embodiments, the airflow opening comprises a slit aperture. The slit aperture is closed when no air is blowing through it; thus, ensuring that no excessive spillage occurs. The slit may be perforated so it remains sealed until the perforation is broken. Applying pressure to break the perforations unseals the slit aperture; once the slit aperture is unsealed, the airflow passes through it when the user blows in through the drinking opening. A variation is when the user ceases blowing, the slit closes.
In some exemplarily embodiments, the exhaust opening includes a flap to reduce likelihood of spillage.
In some exemplarily embodiments, the flap opening comprises a spring means for holding the flap closed. Blowing air causes the flap to open, and the spring means causes it to close when the airflow ceases.
Yet in other exemplarily embodiments, the flap opening comprises a rubber or plastic plug with rubber edges or a rubber grommet and a spring means. Blowing air in causes the plug to open, and the spring means causes it to close when the airflow ceases.
The forgoing embodiments have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the precise forms disclosed and many modifications and variations are possible in light of the above teachings. The embodiments were chosen and described in order to best explain principles and practical application to enable others skilled in the art to utilize the various embodiments with various modifications as are suited to the particular use contemplated.
Typical manufacture of the lid is in plastic, on an automatic thin-gauge thermoforming machine with cast aluminum molds.
The lid can be made of any other sufficiently rigid material, including, but not limited to, molded plastic, biodegradable material, metals, ceramics, and the like.
The embodiment is ideal for licensing to existing manufacturers who may add this variation to their product line by the mere construction of an additional mold for each variation.
Quality control of the lid will include the exhaust-flow test, squeeze test, put-on test, stack test and the upside down test. The exhaust-flow test is to ensure that the exhaust is directed at a sufficient angle so as not to blow in the consumers face when the consumer blows from either opening if that variation is used. The squeeze test is to ensure the lid does not pop off easily when affixed to the beverage container and the beverage container is squeezed in accordance with the way consumers may squeeze the cup. The put-on test is to ensure that the lid can be affixed to the beverage container without undue difficultly. The stack test is to ensure the lid will stack evenly and without displacement irrespective of the planar orientation of the openings. The upside down test is to ensure the lid does not disengage when the beverage is turned upside down.
The forgoing industrial applicability discussions have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the precise forms disclosed and many modifications and variations are possible in light of the above teachings. They were chosen and described in order to best explain principles and practical application to enable others skilled in the art to utilize the various embodiments with various modifications as are suited to the particular use contemplated.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2015/010995 | 1/12/2015 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2015/147968 | 10/1/2015 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 2003657 | Stubblefield | Jun 1935 | A |
| 3421681 | Frank | Jan 1969 | A |
| 3994411 | Elfelt et al. | Nov 1976 | A |
| 4589569 | Clements | May 1986 | A |
| 4721210 | Lawrence | Jan 1988 | A |
| D323116 | Dart | Jan 1992 | S |
| 5582315 | Reid | Dec 1996 | A |
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| 7959029 | Whitaker | Jun 2011 | B2 |
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| 8459491 | Savenok | Jun 2013 | B2 |
| D704054 | Fleming | May 2014 | S |
| 8881938 | Brannock | Nov 2014 | B2 |
| 20050127075 | Smith | Jun 2005 | A1 |
| 20050205588 | Pitts | Sep 2005 | A1 |
| 20060037962 | Kim | Feb 2006 | A1 |
| 20070075079 | Stokes | Apr 2007 | A1 |
| 20070075080 | Farnsworth et al. | Apr 2007 | A1 |
| 20070075081 | Stokes | Apr 2007 | A1 |
| 20080217345 | Hansen | Sep 2008 | A1 |
| 20090108006 | Milan | Apr 2009 | A1 |
| 20120080441 | Lin | Apr 2012 | A1 |
| 20140042178 | Brannock | Feb 2014 | A1 |
| Number | Date | Country |
|---|---|---|
| 2003-0020154 | Mar 2003 | KR |
| 2004047596 | Jun 2004 | WO |
| 2009055067 | Apr 2009 | WO |
| Entry |
|---|
| PCT International Search Report for PCT/US2015/010995 dated May 11, 2015. |
| PCT Written Opinion of the Internatioinal Searching Authority for PCT/US2015/010995 dated May 11, 2015. |
| Number | Date | Country | |
|---|---|---|---|
| 20170253398 A1 | Sep 2017 | US |
| Number | Date | Country | |
|---|---|---|---|
| 61970272 | Mar 2014 | US | |
| 62021239 | Jul 2014 | US |
