| 20150344202 | Childproof Container Closure | December, 2015 | Schneider et al. |
| 20050051564 | Mountable container for liquids and powders, and methods of forming and distributing the same | March, 2005 | Pimpinella |
| 20090179034 | SYSTEM AND METHOD FOR BALANCING PRESSURE IN A CONTAINER | July, 2009 | Olson |
| 20100308037 | MULTIFUNCTIONAL PODS | December, 2010 | Mangiardi |
| 20060131311 | Dual beverage container | June, 2006 | Wang |
| 20120103986 | Powder Container That Will Prevent A User's Hand From Touching The Powder Directly | May, 2012 | Wang |
| 20070170188 | Stackable cups with integral extendable straw | July, 2007 | Guillaume |
| 20110114637 | SAFETY SYSTEM HAVING A TANK CLOSURE | May, 2011 | Mönig et al. |
| 20110139777 | CONTAINER | June, 2011 | Sosnovsky et al. |
| 20050121450 | Interlocking receptacles | June, 2005 | Melki et al. |
| 20070158352 | Double-walled beverage container with a viewing aperture | July, 2007 | Cheng |
The invention relates to soft drink cans that are divided to create compartments. This helps consumers to drink a twelve or sixteen ounce can at different times, and the contents remain fresh. For example, if a twelve ounce can had four compartments, this would allow the consumer to have a three ounce drink fresh at four times. With the Mini Cans in One Can, the consumer screws out a Mini Can, opens, drinks the contents and after drinking, the finished can would be screwed in at the bottom of the can.
The invention relates to soft drink cans. There are lots of designs on the market from small to large cans. Some come with a variety of different shapes joined or divided. JR's invention is to divide the normal twelve or sixteen ounce cans, even other types of cans, so that different types of drinks can be carried in one can size or the same type of drink which can be drunk at different times fresh.
A more complete understanding of the present invention may be derived by referring to the detailed description and claims when considered in connection with the figures where reference letters and numbers are similar items throughout the figures.
FIG. 1 Southeast view of the JR Many Cans in One Can.
FIG. 2 Southeast view of the JR Many Cans in One. This shows the dividers that create compartments within the can.
FIG. 3 Southeast view of the JR Many Cans in One Can. This shows the compartments made separately and attached by means to form a normal can.
FIG. 4 Front view of the JR Mini Cans in One Can. This figure shows three, four-ounce cans which are screwed together to form a twelve-ounce can.
FIG. 5 Southeast view of the JR Mini Cans in One can. Shows the southeast isometric view how the three cans are screwed together to form a normal twelve-ounce can, adding one more would become a sixteen-ounce can.
FIG. 6 Southeast view of the JR Mini Cans in One Can. Shows the top can has been screwed out to drink. Again, it can be screwed in at the bottom after drinking, because the top of the can has a female threading, and the bottom can has a male threading.
JR Many and Mini Cans in One Can is designed for consumers to have a smaller quantity of a drink at different times.
Though JR Many and Mini Cans sound different, the engineering principle is the same.
Another advantage is the variety of JR Many and Mini Cans which can be divided, soldered, attached or screwed in. Consumers would be attracted because of its colorfulness.
JR Many and Mini cans are designed to have many choices of drinks in one standard can size.
Another advantage of these cans is they could have the same drink in all the cans which could be drunk at different times and would be fresh as a just opened can. JR Many and Mini Cans help consumers to carry a variety of drinks in one can.
The main philosophy behind this design is to make small children drink small portions of a drink at a time. Most children drink the whole can at once because it will run out of gas if he or she keeps it longer, after opening the can.