US20120199160A1 - Device and Method for Cleaning a French or Coffee Press - Google Patents

Abstract

A press cleaning device and method are described for removing coffee grinds from a French or coffee press. The device includes a stem having a handle and a circular disk-shaped declining plane ramp disposed at different ends. The circumference of the ramp is substantially the same as the inner circumference of the press. The ramp includes a radial cut running diametrically from the center of the ramp toward the outer circumference. The cut is fabricated to provide a lower or leading edge paralleling the horizontal floor of the press and trailing the leading edge an upward slanted ramp that follows like a circular inclined plane to an upper or ending edge. When rotated, the lower edge, which parallels the floor of the coffee press while slicing and shoveling, transfers the grinds from the bottom of the press up the ramp whereupon the grinds are stacked and can be removed.

Description

FIELD OF INVENTION
• The present invention relates generally to cleaning a coffee press. More particularly, the present invention relates to a device and method for removing coffee grinds from a coffee press.
BACKGROUND OF THE INVENTION
• As a coffee-brewing device popularized in France, a French press is often credited for producing a stronger, creamier coffee than produced by other brewing devices or techniques. Mostly considered as the premier method for brewing a high quality coffee beverage, usage of the French press generally contributes to a coffee having great flavor and consistency due, at least in part, to being able to control the extraction time and delivery of oils that are frequently trapped in the filters used by other brewing devices.
• The French press may also be referred to as a press pot, coffee press, coffee plunger, or cafetière. Although some may discern a technical distinction amongst the aforementioned devices, as used in herein, the expressions “French press,” “press pot,” “coffee press,” “coffee plunger,” and “cafetière” shall be deemed to have the same meaning and will be used interchangeably. Typically, the French press includes a glass, plastic, or similarly rigid jug having a cylindrical shape. The French press is equipped with a lid and a plunger that fits tightly inside the jug. The plunger includes a fine wire or nylon mesh that serves as a filter. To brew coffee, coffee having a coarse grind is placed inside of the jug, and hot water is poured over the grinds. The coffee is allowed to steep for a few minutes, and then a plunger is depressed into the bottom to separate the grinds from the liquid. Afterwards, the coffee can be poured from a spout in the jug into a cup or other container for drinking while the grinds remain trapped underneath the filter at the bottom of the jug.
• After partaking of the coffee, thoroughly removing and disposing of the coffee grinds from the bottom of the coffee press is difficult and time-consuming. A common technique for removing grinds is to fill the French press with water to make the grinds more liquid and less paste-like. The water is swirled inside the French press, and the contents are dumped into a sink. Discarding them into the sink generally creates a cumbersome mess; however the larger drawback to this technique is that the accumulation of grinds in the pipes often clogs the plumbing.
• A common technique for cleaning the grinds from a French press involves using a large spoon and painstakingly scooping and scraping the grinds out of the French press. Yet, another technique is to knock the French press against a soft-edged garbage pail and hope the grinds will simply fall into the pail, this results most often in only partially removing the grinds with the remainder adhering to the sides of the cafetière. This latter technique is also problematic because, along with the grinds some liquid always remains at the bottom of the coffee press and when disposed inside a pail, the water content can leak though a porous trash bag or pail; additionally, this technique does not completely remove the grinds, since much of the grinds remain adhering to the sides or bottom of the French press. The various methods engaged in removing grinds, such as the spooning and dumping techniques waste generous amounts of time and effort, and rarely completely remove the grinds.
• Accordingly, it is desirable to provide a device and method that can take the coffee grinds out of the bottom of a French press easily, neatly, quickly, efficiently, thoroughly, and effectively without damaging the plumbing or resulting in more of a mess.
BRIEF SUMMARY OF THE INVENTION
• As described herein, the present invention relates to a device and method for removing coffee grinds and other particles from the bottom of a French press with a minimal amount of effort. A press cleaning device is configured to be positioned inside any size French press. The press cleaning device includes a stem (providing a central axis for rotating the device) having a handle disposed at a first end (the top) and a circular-shaped ramp or declining plane whose floor is flat disposed at a second end (the bottom); both ends are attached at their centers and perpendicularly to the stem.
• The stem is a relatively thin tube having a height that is greater than the height of the French press. The stem can be fabricated to fit one of a plurality of configurations, including, but not limited to, circular, square, poly-sided, or the like.
• The handle is coupled to the top of the stem and enables a user to rotate or twist the stem. The circular disk-shaped ramp is coupled at its center to the stem, and forms a curving, gradually descending plane beneath the stem. The circumference of the ramp is substantially the same as the circumference of the inside of the French press. In an embodiment, the circumference of the lowermost portion of the ramp is slightly smaller than the circumference of the upper portion of the ramp.
• The ramp includes a cut from the outside edge of the ramp along the diameter of the ramp toward the middle where the ramp is coupled to the stem; the cut is similar to the radius of a circle. The cut provides a leading edge and an ending edge. The leading edge is fabricated to be lower than the ending edge and parallel to the bottom or floor of the French press so that from the lower, leading edge, a circular ramp wraps around in an incline to the upper, ending edge.
• In an embodiment, the leading edge is slightly less in length than the remainder of the ramp and of the ending edge (whereas, the ending edge produces a circumference that is substantially the same as the inner circumference of the French press), this adjustment provides for the fact that coffee presses are molded so that the region where the vertical sides meets the bottom of the coffee press is an inward curve, resulting in the bottom being of lesser circumference than the remainder of the coffee press; this shorter and lower leading edge allows the device to reach the bottom.
• Using the handle, the stem is rotated to cause the sharp leading edge to screw around and downward toward the bottom of the French press thereby slicing through the coffee grinds and other particles (e.g., tea is sometimes brewed in French presses) settled at the bottom of the French press. As the leading edge penetrates the grinds, the grinds are transferred up the ramp and efficiently compacted and stacked upon the ramp. During the stacking process, the sides of the French press function as walls and the ramp functions as a floor for the grinds as they are neatly stacked. The grinds readily adhere to each other and form the shape of the inside surface of the French press. Upon the leading edge's reaching the bottom—an indication that all of the grinds have been “shoveled” up, a palpable difference is felt in the exertion used (the overall exertion is minimal), whereupon the user lifts the handle of the device upward to remove the stacked grinds from the French press and the majority of the liquid drains to the bottom of the French press, leaving just enough moisture for the grinds to “glue” together. Since the circular ramp is substantially the same circumference as the cafetière, the ramp scrapes clean any grind along the sides of the French press during this upward motion, resulting in a clean French press.
• The above described and many other features of the present invention will become apparent, as the present invention becomes better understood by reference to the following detailed description when considered in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
• The accompanying drawings, which are incorporated herein and form part of the specification, illustrate the present invention and, together with the description, further serve to explain the principles of the present invention and to enable a person skilled in the pertinent art to make and use the present invention. In the drawings, like reference numbers indicate identical or functionally similar elements. Additionally, the leftmost digit(s) of a reference number identifies the drawing in which the reference number first appears.
• FIG. 1 illustrates an embodiment of a press cleaning device.
• FIG. 2 illustrates an embodiment of a press cleaning device positioned within a French press.
• FIG. 3 illustrates an embodiment of an expanded view of the lower portion and inside curvature of the French press ofFIG. 2.
• FIG. 4 illustrates an embodiment of an expanded view of the lower portion of the press cleaning device ofFIG. 1.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
• In the following description of embodiments of the present invention, reference is made to the accompanying drawings that form a part hereof and in which is shown by way of illustration a number of specific embodiments in which the present invention can be practiced. It is to be understood that other embodiments can be utilized and structural changes can be made without departing from the scope of the present invention.
• This specification discloses one or more embodiments that incorporate features of the present invention. The embodiment(s) described, and references in the specification to “one embodiment”, “an embodiment”, “an example embodiment”, etc., indicate that the embodiment(s) described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not necessarily referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the relevant art(s) to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.
• A device and method are described herein for removing coffee grinds and other particles from the bottom of a French press thoroughly and with a minimal amount of effort.FIG. 1 andFIG. 2 illustrate an embodiment of apress cleaning device100 that can be operatively positioned inside of a French press, such asFrench press210, to remove coffee grinds and other particles from the inside bottom of the French press. Thepress cleaning device100 includes acylindrical stem110 having ahandle120 disposed at a first end and a flat circular disk-shaped ramp130 disposed at a second end.
• Thestem110 provides a central axis for manipulating thedevice100, as described herein. Thestem110 is a relatively thin tube having a vertical height that is slightly and comfortably greater than the height of theFrench press210. Although thestem110 is illustrated inFIG. 1 as having a tubular shape, various other configurations can be utilized. For example, a cross-sectional view of the various configurations for thestem110 can be circular, oval, triangular, square, poly-sided, star-shaped, or the like.
• Thehandle120 is coupled to thestem110 to enable a user to rotate or twist thestem110. InFIG. 1, thehandle120 is illustrated as being perpendicular to the top ofstem110, but thehandle120 can be positioned at other angles or possess other configurations, for example a spherical shape, as long thehandle120 permits the user to easily grip and rotate thestem110 on a central axis. In an embodiment, thehandle120 is coupled in the middle to the top of thestem110 and enables the user to rotate thestem110 in a clockwise motion. In other embodiments, thehandle120 is coupled to enable the user to rotate thestem110 in a counter-clockwise motion. In another embodiment, a knob is included and adapted to be pushed at the handle end of the stem and results in theramp130 below rotating.
• The center of the disk-shapedramp130 is perpendicularly coupled on its central axis to thestem110, and forms a gradually descending curving plane or ramp beneath thestem110. Theramp130 is also positioned onto thestem110 such that the leadinglower edge150 of theramp130 is parallel to the handle120 (which parallels the floor of the French press210). The circumference of theramp130 is substantially the same as the circumference of the inside of theFrench press210. In another embodiment the outside edges of theramp130 can be made of a malleable or pliable material, such as soft rubber or plastic, which allows for a minimally wider diameter (than the inside diameter of the French press210) thus affecting a thorough scraping of the walls of theFrench press210. In the illustrated depictions, theramp130 is a rigid, solid floored or non-porous device; however in other embodiments, theramp130 could be a rigid porous screen-like material that allows the liquid to strain through but not the larger, coarse coffee grinds. Since French presses may vary in size or volume, the circumference oframp130 can also vary to match the inner circumference of theFrench press210 that thedevice100 is being used to clean. Therefore in an embodiment, theramp130 could be detachable fromstem110 so that differentlysized ramps130 can be attached and removed fromdevice100 and therefore used with differently sized French presses. In another embodiment, thedevice100 is a single unit, with no detachable parts therefore requiring different devices at different circumferences for different sized presses.
• Theramp130 is formed or threaded around thestem110 in a corkscrew manner. As such, theramp130 essentially begins as a circle that has been cut from the outside circumference of theramp130 along half the diameter of theramp130 toward the center where theramp130 is coupled on its central axis to thestem110, this cut is equal to the radius of the inner circumference of theFrench press210 and produces two edges. One edge of this cut is then engineered or manipulated from the inside (stem side) or center of the circle and along its entire length to become lower than the other cut (the upper or ending edge140) and becomes theleading edge150—whose entire edge parallels the floor of theFrench press210 and thehandle120. As aforementioned, this cut also produces another edge known as the upper or endingedge140. Theleading edge150 is also slightly less in length or radius than thefinal edge140 to accommodate for the lesser circumference on the bottom of theFrench press210 due to the curve where the side meets the bottom or floor of the cafetière, discussed in greater detail below with reference toFIG. 3 andFIG. 4.
• Theleading edge150 is lower than the endingedge140 and behind it the plane of theramp130 revolves gradually upward so that the circular disc-shape of theramp130 follows like an inclined ramp to the endingedge140. In an embodiment, the endingedge140 is positioned directly above theleading edge150 with a small height difference between the two (as described in greater detail below with reference toFIG. 3 andFIG. 4). In another embodiment, theramp130 continues to thread around thestem110 beyond the point where theleading edge150 and the endingedge140 are vertically aligned. For example, theramp130 can continue a full circle and a quarter or a full circle and a half In either case, grinds or other particles that are pushed over endingedge140 fall and remain on theramp130 positioned below.
• When thedevice100 is rotated clockwise, theleading edge150 screws around and downward toward the bottom or floor of theFrench press210. Accordingly, theleading edge150 is configured to penetrate or slice through any coffee grinds and other particles settled at the bottom of theFrench press210. As theleading edge150 continues to penetrate, the grinds are transferred up theramp130 and neatly compacted and stacked on theramp130. During the stacking process, the sides of theFrench press210 function as retaining walls and theramp130 functions as a supporting floor for the grinds as they are stacked. The grinds readily adhere to each other and form the shape of the inside surface of theFrench press210. The user can continue to turn thehandle120 of thedevice100 until there is no resistance. It should be understood that a difference in pressure would be readily apparent when theramp130 scrapes or “shovels” the last of the grinds from the bottom of the inside of theFrench press210. Upon reaching the bottom, the user can lift thehandle120 vertically or upward, and as thedevice100 is pulled upward and out of theFrench press210, any remaining liquid flows down and out of the grinds and remains in theFrench press210. As discussed, the minimal moisture remaining within the grinds causes them to cement together forming a solid or rigid form. This adhesive property enables the molded grains to remain perfectly formed and stacked onto theramp130 as thedevice100 is lifted out of theFrench press210 and readily remain formed and stacked on the device outside the cafetière when transferring them to a rubbish container. In addition, as discussed, theramp130 being substantially the same circumference as theFrench press210, scrapes clean the walls of theFrench press210 leaving no grind residue along the sides of the cafetière.
• The circular motion caused by rotating thehandle120, and concomitantly theramp130, contributes to the grinds piling compacted and formed onto theramp130 and quickly produces a neat and rigid, stack. Thus, thedevice100 overcomes the drawbacks of conventional techniques for removing coffee grinds that are time consuming and results in significant residue and dregs. Thedevice100 with the grinds stacked and compacted can be tapped on the side of a garbage pail, and all the grinds readily slide off theramp130 and fall inside the pail with only a trace of moisture. An advantage of thisdevice100 is that it cleans all the grinds from aFrench press210 easily and quickly with a minimal amount of effort, and permits theFrench press210, itself, to be easily rinsed clean of the remaining coffee liquid without harm to the plumbing.
• To remove all of the grinds from the inside of theFrench press210, it is important for theleading edge150 to reach and scrape the bottom of theFrench press210. Therefore, the height difference between theleading edge150 and the endingedge140 should be set to enable theleading edge150 which parallels the bottom surface or floor of theFrench press210 to reach the bottom of theFrench press210; coffee presses generally have a slightly rounded bottom edge where the inner wall of the French press meets the bottom as they are commonly molded glass (as shown inFIG. 2; which represents a difference in circumferences: the lesser circumference of the bottom or floor and the greater circumference of the majority upper and parallel sides of the French press container). The difference in height between theleading edge150 and the endingedge140 should, at a minimum, be equivalent to the height of the curving on the rounded bottom edge within theFrench press210 commonly three-eighths to three-fourths of an inch, depending on the size of theFrench press210. In another embodiment, the height can be greater, has long as it is more than the difference between these two circumferences. This can be further explained with reference toFIGS. 3 and 4.
• FIG. 3 illustrates an expanded view of the lower portion of theFrench press210 to emphasize the curvature340a-340bof the inside bottom surface. The vertical sides of theFrench press210 are molded so that the region where the vertical sides meet the horizontal bottom or floor of theFrench press210 is an inward curve (i.e., curvature340a-340b). Upper indicators310a-310bspecify an area immediately above the curvature340a-340b,lower indicators320a-320bspecify area where the curvature340a-340bmeets the bottom of theFrench press210, and thevertical height330 of the curvature340a-340bis measured from the bottom to the upper indicators310a-310b.The horizontal distance between upper indicators310a-310bdefines a first diameter at a point immediately above the curvature340a-340b.The horizontal distance between lower indicators320a-320bdefines a second diameter of the bottom ofFrench press210, which coincidentally is the area immediately below the curvature340a-340b.Since the second diameter is smaller than the first diameter, the circumference for the bottom of theFrench press210 is less than the circumference for the remainder of the coffee press.
• Thus, the curvature340a-340bof the inner bottom of theFrench press210 also causes the bottom circumference (measured from lower indicators320a-320b) to be slightly smaller than the inner circumference (measured from upper indicators310a-310b) of theFrench press210 immediately above the curvature340a-340b.As such in an embodiment, the length of leadingedge150 has a bit cut off; therefore, its radius is less than the radius of the endingedge140 and equivalent or less than the circumference of the bottom-most part of theFrench press210, which as mentioned above is a lesser circumference than the remainder of theFrench press210 due to the molded inward slanted curve (curvature340a-340) where the sides meet the floor. The outside corner of the length of leadingedge150 has the most cut-off. The amount cut-off reduces gradually as it continues up the ascending slant of theramp130 until it equals the larger circumference that is above the rounded bottom of the inside of theFrench press210; which is the same circumference as the majority of the inside of theFrench press210, or all of the area above the rounded bottom where the sides parallel one another—above this curve, the circumference of the coffee press remains equal. Without this cut to the length of theleading edge150 and the graduated cut along the lowermost outside edge of the ramp, or the circumference of theramp130, the lower portion of theramp130 would be too wide to reach and scrape the bottom plane or floor of theFrench press210 where the bottommost coffee grinds reside.
• The aforementioned graduated cut to the length of theleading edge150 and the longer endingedge140 can be explained with reference toFIG. 4, which illustrates an expanded view of the lower portion ofdevice100. Theleading edge150 is coupled along the central axis of theramp130 to stem110 atlower position420. Similarly, the endingedge140 is coupled along the central axis of theramp130 to stem110 atupper position410. Thevertical distance430 betweenlower position420 andhigher position410 is substantially the same or somewhat greater as thevertical height330 of the curvature340a-340bof the bottom inner surface of theFrench press210. Hence, as discussed above, the graduated radial cut between the length of the shorterleading edge150 and the length of the longer endingedge140 allows the lowerleading edge150 to reach and scrape the bottom of theFrench press210.
• For French presses that do not have cylindrical glass volumes with rounded edges, the graduated cutting and rounding of the corner of theleading edge150 would not be necessary. Otherwise, the graduated cutting and rounding allows theleading edge150 to scrape along the entire surface of the bottom thereby leaving no grinds or other particles inside of theFrench press210.
• In an embodiment, the shape of theramp130 is flat and circular as discussed. However in other embodiments, the outside edges of theramp130 can be convex, concave, or a mixture of both in shape as long as theramp130 is capable of removing substantially all of the grinds from the bottom of theFrench press210. In an embodiment, the outside edges of theramp130 can have a railing (e.g., walls perpendicular to the floor of the ramp130) akin to the walls of theFrench press210, as side support for the coffee grinds. In another embodiment, the outside edges oframp130 may be made of a malleable or pliable material, such as soft rubber or plastic which allows for a minimally wider diameter (than the inside diameter of the French press210) thus affecting a thorough scraping of the walls of theFrench press210.
• Thestem110, thehandle120, and ramp130 can be made of a plastic, metal, alloy, ceramic, or other sturdy materials. If the selected material is a metal or an alloy, a metal, such as copper or aluminum, should be selected to minimize oxidation or rusting of the components. They can also be painted with rust-proof paint and easily labeled for advertising. All three components can be made of the same materials, or different materials can be used to fabricate the components. Thehandle120, theramp130, or both can be integrally formed into thestem110 or removably attached to thestem110, particularly as aforementioned in the case of thestem110 and theramp130 in order for theramp130 to be interchangeable to the various sizes ofFrench presses210, according to the manufacturers' wishes. If the manufacturer chooses a screw-like device, then the clockwise motion of the handle would perfectly fit and corroborate the counter-clockwise screw attachment of theramp130.
• It should be understood that thedevice100, as described herein, is an exemplary device for implementing various aspects of the present invention. Notably, the figures and examples above are not meant to limit the scope of the present invention to a single embodiment, but other embodiments are possible by way of interchange of some or all of the described or illustrated elements. Moreover, where certain elements of the present invention can be partially or fully implemented using known components, only those portions of such known components that are necessary for an understanding of the present invention are described, and detailed descriptions of other portions of such known components are omitted so as not to obscure the present invention. In the present specification, an embodiment showing a singular component should not necessarily be limited to other embodiments including a plurality of the same component, and vice-versa, unless explicitly stated otherwise herein. It is to be understood that the phraseology or terminology herein is for the purpose of description and not of limitation, such that the terminology or phraseology of the present specification is to be interpreted by the skilled artisan in light of the teachings and guidance presented herein, in combination with the knowledge of one skilled in the relevant art(s). Moreover, it is not intended for any term in the specification or claims to be ascribed an uncommon or special meaning unless explicitly set forth as such. Further, the present invention encompasses present and future known equivalents to the known components referred to herein by way of illustration. While various embodiments of the present invention have been described above, it should be understood that they have been presented by way of example, and not limitation. It would be apparent to one skilled in the relevant arks) that various changes in form and detail could be made therein without departing from the spirit and scope of the present invention. Thus, the present invention should not be limited by any of the above-described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents.

Claims (13)

1.-13. (canceled)

14. A method for removing coffee grinds deposited within a coffee press, the method comprising:

inserting, into the coffee press, a press cleaning tool having a disk-shaped declining-plane ramp threaded about a base of the press cleaning tool to form a lower edge and an upper edge;

rotating the press cleaning tool along a central axis to enable the lower edge to penetrate downwardly into the coffee grinds to thereby cause the coffee grinds to traverse the ramp in an upward motion and cause the coffee grinds to stack upon the ramp, whereby an inner surface of the coffee press functions as a wall for molding the stacked grinds and the ramp functions as a supporting floor for the stacked grinds; and

lifting the press cleaning tool vertically to remove the stacked grinds from the coffee press.

15. The method ofclaim 14, further comprising rotating the press cleaning tool until the lower edge of the ramp parallels and scrapes the bottom of the inner surface of the coffee press to substantially remove and push along to an upper portion of the ramp all of the coffee grinds from the bottom.

16. A method for removing coffee grinds deposited within a coffee press, the method comprising:

inserting into the coffee press a press cleaning tool comprising:

a stem having a first end and a second end; and

a circular ramp coupled to the second end of the stem about a central axis of the stem, the ramp including an upper edge and a lower edge; and

rotating the press cleaning tool about the central axis.

17. The method ofclaim 16, wherein rotating the press cleaning tool comprises enabling the lower edge to penetrate downwardly into the coffee grinds to thereby cause the coffee grinds to traverse the ramp in an upward motion.

18. The method ofclaim 17, further comprising lifting the press cleaning tool vertically after rotating the press cleaning tool to remove the stacked grinds from the coffee press.

19. The method ofclaim 17, wherein rotating the press cleaning tool comprises scraping a surface of the coffee press with the lower edge.

20. The method ofclaim 16, wherein the lower edge has a length shorter than a length of the upper edge.

21. A coffee press kit comprising:

a coffee press configured for brewing coffee, the coffee press including a bottom inner surface and vertical sides walls extending from the bottom inner surface, the vertical side walls defining an inner circumference; and

a press cleaning tool insertable and rotatable within the coffee press and configured to remove coffee grinds deposited within the coffee press, the press cleaning tool including:

a stem having a first end and a second end; and

a circular ramp coupled to the second end of the stem about a central axis of the stem, the circular ramp including a circumference substantially the same as the inner circumference.

22. The kit ofclaim 21, wherein the ramp includes a lower edge configured to scrape the bottom inner surface of the coffee press.

23. The kit ofclaim 22, wherein the ramp further includes an upper edge having a length greater than a length of the lower edge.

24. The kit ofclaim 21, wherein the bottom inner surface has a circumference less than the inner circumference.

25. The kit ofclaim 21, wherein the stem has a length greater than a height of the coffee press.

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