The present invention relates to beverage brewing devices, specifically to devices that provide for brewing for a single cup of the brewed beverage.
Beverage brewing devices are well known in the art, including devices that provide for brewing a single cup of brewed beverage at a time. Presently, there are a number of such devices available, most of which need to be used with a stand that allows for the brewing device to sit over the top of the cup. Some of these devices allow for control of the flow of the brewed liquid, but there exists the need for a single cup brewing device that can sit directly on the cup to be filled and that provides for maximum control by the user of the flow of brewed liquid and consequent fine tuning of the flavor, texture, strength, and balance of the brewed beverage.
According to the present invention, the foregoing and other objects and advantages are obtained by utilizing an internal valve mechanism in the device that controls flow of the brewed beverage. The user rotates the brewer or a portion of the brewer to change the valve setting which allows for analog adjustment of flow. The mechanism consists of two or more mating surfaces by which the spacing between can be varied by the user to adjust from full closure to a relative minimum flow to a relative maximum flow, hence, a fully analog spectrum of control.
In a second embodiment, the two or more mating surfaces are deformable membranes, manipulated directly or indirectly by the user to create an aperture or apertures of variable size.
In another embodiment, actuation of a disk or plate pivotally attached to the body of the device causes the overlap of perforations shaped in a way that the surface area of aligned perforations constitutes a continuous and uninterrupted range from a relative minimum overlap to a relative maximum overlap. All of the disclosed embodiments allow for the analog control, rather being limited to distinct, or digitally determined, flow as in the prior art.
This flow adjusting feature of the instant invention is constructed in such a way that the rate of change of flow is non-linear to the adjustment of the valve so that the actual rate of flow through the device at a given setting is optimized. This allows for precision adjustments over a portion of the adjustment range, and rapid flow over another portion without the need for a variable thread pitch or cam profile. This acceleration of flow allows for extreme fine tuning of the balance, strength, texture, and flavor of the brewed beverage.
The device is constructed as shown in the figures of this specification so that it is susceptible to disassembly for direct cleaning of all sealing surfaces because there are no permanently affixed movable mating surfaces as in prior art devices.
Additionally, the use in one embodiment of non-rigid molded material for the pair of mating surfaces that function as a valve allows for maximum control. Non-rigid material also constitutes a significant percentage of the overall device. In the preferred embodiment, silicone that is used in the manufacture of the cone is also used to wrap down into the core and form the valve structure, preventing plastic contact of the brewing liquid and preventing seams that are not hygienic between non-uniform materials.
The use of a non-rigid material in one embodiment creates a non-slip, non-marring point of contact with external objects, such as the cup on which the device is placed during or between uses. Importantly, the fully adjustable flow device of the instant invention is able to function while resting directly on a cup in each embodiment, in opposition to many products in the prior art technology that require a stand for the device to be set over the cup.
The invention will become more readily apparent from the following description of preferred embodiments thereof shown, by way of example only, in the accompanying drawings wherein:
As shown in
The device 100 of the instant invention allows a user to precisely and consistently control the rate of flow of brew liquid through the brewing media and filtration media, together referred to herein as brewing load, to achieve greater control of the flavor of the brewed beverage. In device 100 as shown in
In use, device 100 in its preferred embodiment is placed atop a vessel, generally a coffee cup or mug. Brewing liquid is added into upper opening 7 and begins to percolate through the brewing load previously placed into container 6. As shown in
Upper 10 is movably attached to base 1 by threaded elements 9 that allow device 100 to be adjusted, as well as for the complete and instant disassembly of the two components. Turning collar 5 in a specified clockwise or counterclockwise circular direction, such as circular clockwise motion 11, has the effect of raising upper 10 relative to base 1, and turning collar 5 in the opposite (clockwise) direction has the opposite effect, such that the rotational position of collar 5 and the relative height of upper 10 are linearly related. Peripherally located relative as to lower opening 8 is container 6 which includes an internal surface that is capable of mating to bung 4 to form a water-tight seal as sealing mechanism 2. A valve function is thus created between container 6 and bung 4 comprising sealing mechanism 2, so that the extent of the opening of the lower opening 8 is determined by the relative height of upper 10 to base 1 as it is adjusted by a user manipulating collar 5.
With upper 10 at the lowest possible height relative to base 1, the device shall be said to be fully closed such as in
Importantly, in the preferred embodiment sealing mechanism 2 is shaped such that the rate of change of flow through the valve is linear for some portion of the adjustment range and nonlinear for another portion, allowing fine grained control throughout most of the adjustment range and rapid flow at or near the maximum adjustment. This acceleration of flow as the valve is opened provides for a greater means of control to determine the nature of the final brewed liquid. Base 1 can, in some embodiments, be constructed from non-rigid, non-slip material to prevent device 100 from sliding off or creating noises when placed atop the vessel.
This application claims the benefit of U.S. Provisional Application No. 62/384,466 filed Sep. 7, 2016.
Number | Date | Country | |
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20190069707 A1 | Mar 2019 | US |
Number | Date | Country | |
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62384466 | Sep 2016 | US |