Microwave beverage maker

A beverage maker includes a container having a portion for receiving a beverage made by passing hot water over an ingredient and a basket for holding a beverage ingredient provided at an upper end of the container. When hot liquid is supplied into the basket, a hot liquid and beverage ingredient mixture exits from the basket into the receiver portion. In embodiments of the present invention, the receiver portion and a reservoir from which the hot liquid originates are disposed side-by-side. Embodiments of the present invention have elements that shield the beverage ingredient from microwave energy and/or an element or elements that insulate the hot liquid and beverage ingredient mixture.

BACKGROUND OF THE INVENTION 
This invention relates generally to improvements in beverage makers or 
coffee brewers. More specifically, it relates to an improved device for 
brewing beverages using a microwave oven. 
Obviously, devices for heating water and brewing beverages such as coffee 
or tea have been available for many years. However, with advent of the 
microwave oven and its now extensive use, a device or a method which takes 
full advantage of the microwave oven to rapidly heat water is desirable 
and useful. 
Coffee, for instance, is most commonly made with a so-called percolator or 
by the drip method. In a perculator, water at the bottom of a pot is 
heated to rise upwardly in a tube and then fall downwardly through a 
perforated basket containing ground coffee. One type of perculator is 
shown in Hagel U.S. Pat. No. 1,754,553. A drip coffee maker is shown in 
the Keramati et al. U.S. Pat. No. 4,356,382. These and other patents such 
as the patent to Pouget Re. No. 17,077, Herring No. 1,655,014, Robbiati 
No. 2,594,132 and Beverett No. 3,696,733 all show coffee makers where 
water in a reservoir is heated, using either electric resistance heaters 
or by placing them on top of a stove, to then rise upwardly in a tube and 
fall through a basket or a filter containing the ground coffee. 
One attempt with which the applicant is familiar to utilize a microwave 
oven to make coffee is a product sold under the name "Nordic Ware" which 
is of the perculator type. That is, there is a basket supported on a tube 
containing ground coffee that has a base resting in the bottom of a pot so 
that as the water is heated it will rise upwardly through the tube to 
circulate downwardly through the coffee in the basket. However, it is 
believed that a number of advantages over the foregoing discussed devices 
can be achieved by the invention herein disclosed. 
Therefore, it is an object of this invention to provide a novel beverage 
maker to be used in microwave ovens. 
It is another object of this invention to provide a novel beverage maker 
which can be used in microwave ovens to brew a beverage such as coffee and 
is capable of maintaining the coffee at an acceptable serving temperature 
for a period of time without continuously heating the coffee and thus 
destroying its flavor. 
A still further object of this invention is to provide a novel beverage 
maker which is compact and capable of brewing relatively small amounts of 
beverage as desired. 
BRIEF DESCRIPTION OF THE INVENTION 
These and other objects of the invention are achieved by the provision of a 
beverage maker including an insulated container combined with a microwave 
shield encompassing the portion of the container intended to hold the 
brewed beverage and a separate unshielded portion to hold water intended 
to be heated to make the beverage.

DETAILED DESCRIPTION 
FIG. 1 illustrates a first embodiment of the invention in which a brewer 2 
is provided in the form of a container or pot formed of any suitable 
plastic material. A handle 6 is formed on the container while a lid 8 is 
hinged at 10 on one end and extends to pouring spout 11. Alternatively, 
the lid may rest on top of the container and removed by simply lifting it 
off to provide access. The container is provided with an inner, generally 
cup-shaped lining 12, formed of microwave shielding material such as 
aluminum. As shown in FIG. 3, microwave shielding can also be provided by 
forming the cup-shaped lining or inner wall 12' of a plastic material and 
coating or wrapping it with aluminum foil as shown at 25. In this figure, 
4 indicates the outer wall, while 12' indicates the inner wall. Insulation 
around the container is provided by foamed plastic material 14 between the 
inner wall 12 and an outer wall 16 of the container. Thus, there is 
provided a portion 18 to receive the beverage when brewed. Resting on the 
upper end of the portion 18 is a basket 20 to receive an appropriate 
filter when in use. An opening 22 in the bottom of the basket permits a 
beverage such as coffee to pass from the filter basket to the bottom of 
the receiver 18 during the brewing process. A number of ridges 23 (only 
one of which is shown) are provided on the bottom of the filter basket to 
space a filter from the bottom of the basket to insure a good flow of 
brewed coffee or the like to the opening 22. 
The container 4 is dimensioned to receive a cold water reservoir 24 
provided with a cap 26. As can be seen in FIG. 1, the reservoir 24 and the 
receiver portion 18 may be positioned adjacent to each other in a 
side-by-side non-overlapping relationship. A tube 28 extends from the 
bottom of the bottle upwardly provided with an outlet 30 emptying into the 
filter basket 20. 
In use, when it is desired to make a beverage such as coffee, the lid 8 is 
rotated upwardly about its hinge 10 or removed exposing the reservoir 24 
with its cap 26 and the interior of the filter basket 20. The cap 26 may 
then be removed to fill the bottle or reservoir 24. A filter may then be 
inserted in the filter basket and the desired beverage ingredient such as 
coffee added to the filter. When bottle cap 26 is secured to the 
reservoir, the lid 8 may then be closed and the entire device placed in a 
microwave oven. 
When the oven is energized, the water in the reservoir will heat very 
rapidly causing a pressure to build up at the top of the reservoir over 
the surface of the water. This pressure will cause the water to rise in 
the tube 28 and exit through the opening 30, to drip down through the 
coffee and the filter and from there into the receiver 18 through the 
opening 22. 
The coffee or other brewed beverage in the receiver 18 portion will remain 
hot by virtue of the foam insulation 14, but will not continue to be 
heated by the microwaves because of the shield 12 or 25 encompassing the 
container 18. To further insure against additional heating of the brewed 
beverage the lid 8 also includes a microwave shield 32 extending across 
the top of the filter basket 20 and therefore the receiver 18. The 
microwave shield 32 as may be seen closes off the bottom of the lid and 
provides a space 34 which may also contain a foam insulating material or 
simply provide air insulation to aid in maintaining the brewed beverage at 
the acceptable serving temperature. Moreover, as can readily be seen in 
the drawings (FIG. 1), the reservoir 24, by being situated between the 
outer wall 16 of the container and the portion 18, functions as an 
insulator to further aid in maintaining the brewed beverage at the 
acceptable serving temperature. In addition to protecting the contents of 
the brewed beverage receiver 18 from overheating or overboiling, the 
shield 32 in the lid likewise protects the coffee grounds or the like in 
basket 22 from being burnt or overroasted. Thus when the brewing action is 
complete, the entire container may be removed from the microwave oven and 
the beverage held at an elevated temperature for a period of time until it 
is consumed by pouring the contents into a cup or mug using the spout 11. 
FIG. 2 discloses a second embodiment of the invention which may be used in 
a microwave oven or used in a more conventional way. 
In this embodiment of the invention, a reservoir 40 with its cap 42 and an 
upwardly extending tube 44 are formed separately from a container 46. 
In this embodiment, the container 46 is formed as a carafe or pot provided 
with a handle 48. An open top 50 is provided to provide access for a 
filter basket 52. The filter basket 52 is provided by molding a circular 
sloping side wall 54 in the container, having a bottom formed by a stopper 
56. The stopper is formed as a double walled construction and microwave 
shielding 57 is provided by a material such as aluminum foil embedded 
therein. Formed on the top of the stopper 56 are a number of ridges 58 
(only one of which is shown). The ridges 58 support the bottom of the 
filter while the spaces therebetween permit the liquid in the filter, 
during the brewing process, to flow from all portions of the bottom of the 
filter toward the end of the stopper 56 and through a space 60 provided 
between the end of the stopper and the inner wall of the container to its 
bottom portion or beverage receiver 62. 
As before, the container is formed as a double walled structure having an 
inner wall 64 and an outer wall 66. A space between the inner and outer 
wall is filled with a foamed heat insulating material. The inner wall is 
formed of a microwave shielding material such as aluminum while the outer 
66 wall is formed from a suitable plastic material. Again as in the case 
with the embodiment illustrated in FIG. 1, the alternative construction 
shown in FIG. 3 can be used, that is, aluminum foil may be embedded in the 
foam insulating material or used to wrap the inner wall of the container. 
A pouring spout 70 is provided on side of the container. 
In the use of this embodiment of the invention, the reservoir 40 is filed 
with water up to a point below its top and the cap 42 is then screwed 
tightly onto the reservoir 40. A standard paper filter is placed in the 
upper portion of the container to rest on the ridges 58 and the ground 
drip coffee is added in the proper amount. The container and the reservoir 
are then placed in a microwave oven and the oven energized to heat the 
water. As before, as the water is heated, pressure on its upper surface is 
increased forcing it upwardly through the tube 44 and out of the spout 45 
into the filter basket 52. After the brewing process is complete, because 
all of the water passing through the coffee has dripped through the 
opening into the receiver 62, the container may be removed from the 
opening and the coffee maintained hot by virtue of the insulation 
provided. Again as before, during the brewing process, because of the 
microwave shield 64, the brewed coffee does not continue to be heated by 
virtue of the microwave energy, so that the coffee does not overheat and 
therefore retains its flavors. 
Because the reservoir 40 in this embodiment of the invention is separate 
from the container or beverage brewer itself, several advantages result. 
The first is that once the beverage is made, the container 46 may be used 
as a carafe and beverages poured from it as needed. It may be noted that 
the carafe in this configuration may be smaller and lighter for any given 
volume of brewed beverage and therefore easier to handle. Another 
advantage is that the container 46 need not have its hot water supplied 
from the reservoir 40. That is to say, water can be heated from any source 
and poured into the filter basket opening in order to make a beverage and 
a beverage so made will be maintained at an acceptable serving temperature 
by virtue of the insulated construction. 
Obviously, modifications can be made other than those shown or suggested in 
the detailed description and drawings and it is intended by the claims to 
cover all such modifications as common within their scope.