The present invention relates to unitary container assemblies suitable for preparing non-food mixtures as well as food items such as coffee or tea, and in particular to such containers which are disposable after use.
Traditional methods for preparing beverages and other food items such as coffee, tea, soup broths or the like typically require multiple vessels for containing the beverage components, another vessel for cooking, brewing, or otherwise preparing the food item and perhaps yet another vessel for serving the food item. However, these traditional methods are unsuitable for automated vending or for instant preparations by the consumer. It has been found generally desirable for such systems, that the number of containers and other utensils be minimized.
Some arrangements, such as those frequently used in hotels and other rental accommodations have been proposed, using a combination of reusable vessels and utensils along with one or more disposable components. For example, ground coffee beans are prepared and prepackaged in a water permeable bag which allows heated water to pass through so as to brew the coffee beans. Once the coffee is brewed, the package of coffee beans is discarded.
U.S. Pat. No. 4,027,582 shows a drip coffee maker employing reusable components, which is suitable for preparing a small number of servings. Further advances in the art of disposable beverage preparations is shown in U.S. Pat. No. 4,134,492 which shows a single-use cup provided with a sealed compartment that holds a beverage concentrate isolated by a removable film. For use, the film is removed and the cup is filled with water that dissolves the concentrate. After a suitable time to allow dissolution, the contents, of the cup is ready for consumption by a user. Upon consumption of the beverage the cup is then discarded.
U.S. Pat. No. 5,605,710 shows a combination of reusable and disposable components, wherein a single cup disposable coffee brewing device is provided with a filter which contains pre-ground coffee beans. The filter is disposed over a reusable vessel such as a coffee mug and externally prepared heated water is poured over the filter and its contents, with the resulting brewed coffee draining into the coffee mug.
A need also exists for improved packaging of analytical and therapeutic products. Easy to use, premeasured kits in particular, are in demand.
The present invention provides a novel and improved preparation system for food and non-food items. A cup is provided for holding a first component such as hot water and defining a cavity for holding a food item or a chemical reagent as a second component. The cup has a side wall with an inner surface. A liner having a liner side wall is disposed within the cup and is secured to the inner surface. At least a portion of the liner side wall is spaced from the inner surface of the cup side wall to define a cavity for receiving at least one other component, such as ground coffee beans, a chemical reagent, and the like. At least a portion of the liner is foraminous so as to allow communication between the first and the at least one other component, while retaining at least a portion of the at least one other component in the cavity during preparation and use. In one embodiment, the cup and the liner are in sealing engagement with one another. The cup, the liner, or both can have either a frustoconical or a conical shape, or any other convenient shape, as may be desired. The liner can be rendered foraminous by perforation, by having a window covered with a foraminous covering, or by being made of a foraminous material in its entirety.
An assembly for beverage preparation can be provided with a film overwrapping. Preferably, a plurality of individual preparation systems is provided, each system being overwrapped with its own film portion. In one instance, the film overwrap conforms to the liner, so as to allow nesting with a second overwrapped preparation system. Thus, Volatile components stored within the system cavity can be maintained fresh, and ready for individual use without compromising other preparation systems.
A system for preparing a solution from multiple components comprises a foraminous liner disposed within a cup and defining a compartment that is in fluid flow communication with the cup. Side walls of the liner and cup are spaced from one another so as to form a compartment or cavity for receiving at least one second component. In one instance, the second component comprises a solute of solid or non-flowing material, such as a material having jelly-like consistency. When a first component such as a solvent is introduced into the cup, it communicates with the second component through the liner. The first component can be a solvent, reagent, or a sample to be analyzed in either liquid or gaseous state.
In the drawings,
The invention disclosed herein is, of course, susceptible of embodiment in many forms. Shown in the drawings and described herein below in detail are the preferred embodiments of the invention. It is to be understood, however, that the present disclosure is an exemplification of the principles of the invention and does not limit the invention to the illustrated embodiments.
For ease of description, preparation systems embodying the present invention are described herein below in their usual assembled positions as shown in the accompanying drawings and terms such as front, rear, upper, lower, top, bottom, inner, outer, horizontal, longitudinal, etc. may be used herein with reference to this usual position. However, the preparation systems may be manufactured, transported, sold, or used in orientations other than that described and shown herein. As another example, the present invention is described as pertaining to the preparation of “mixtures”. It should be understood however that the term “mixtures” applies to virtually any type of combination of ingredients, such as solutions, colloidal suspensions and combinations thereof.
Referring now to the drawings, and initially to
Cup 12 can be made from virtually any compatible sheet material including paper, paper board, metallized products, coated paper and plastic, for example. Cup 12 can be made in virtually any manner known today. Cup 12 can be formed by molding any of a variety of known materials, such as paper, paper products, plastic and metallized materials, as well as layers of the same or a combination of different materials. The components of cup 12 may be joined by any conventional means such as adhesives or sonic welding, for example. As mentioned, it is generally preferred that cup 12 be formed from a single layer of paper or paper product material. However, cup 12 could also be formed from multiple layers of the same or different materials. For example, walls 16 can be formed as a composite layer of an inner liquid-retaining material and an outer material such as corrugated cardboard or foam which traps air to provide a thermal barrier and/or thermal insulation.
Disposed within cup 12 is a liner generally indicated at 20 and having a frustoconical side wall 22. The upper periphery of liner 20, indicated at 24 is preferablyjoined or otherwise sealed to the inner surface 26 of cup side wall 16. A bottom end portion 30 of liner side wall 22 is sealed to bottom wall 14 of cup 12. The bottom end portion 30 may be directly joined to bottom wall 14 by adhesives, sonic welding or the like, or bottom end portion 30 can be extended to form a transverse flap extending either radially inwardly or radially outwardly of frustoconical wall 22 so as to overlie a portion of bottom wall 14. Alternatively, the bottom end portion 30 of liner side wall 22 may be unitary with a perforated blank such as blank 82 shown in
In addition to using adhesive and thermal welding joining processes, the liner can be effectively sealed to the cup with a mechanical system. For example, a lip or ridge can be provided on the interior of the cup, with the liner being snap fit between the ridge and the cup bottom for secure retention and sealing.
As indicated in
Liner 20 can be formed by molding a suitable material of paper, paper board, paper products, coated paper, or plastic, for example. Again, if the material is imperforate, a blank formed from a sheet of the material is mechanically or otherwise perforated, or a “window” portion is removed and replaced with material which is perforate or otherwise foraminous. For example, the “window” can be replaced by perforated imperforate material, or a molded portion of perforate or otherwise foraminous material such as foam or spun plastic, for example. Liner 20 can be formed either with or without a manufacturer's joint as is known in the art. It is generally preferred, in one instance, that the size of the perforations or foraminous passageways allowing communication through the liner be sized slightly smaller than the size of any granules, particles, or other components stored in cavity 40 which are undesirable for consumption or other use, along with the food or non-food items prepared in system 10. For example, if the item to be prepared is “natural” coffee, made from coffee beans, the coffee beans are preferably ground to a size no smaller than a prescribed minimum size. The perforations or foraminous passageways through liner 20 are then sized slightly smaller than the minimum size so as to “trap” or block passage of the coffee grounds through liner 20.
Referring now to
In the embodiment illustrated in
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Portion 78 of blank 82 can also be sized to provide an upturned lip for overlapping joinder with the bottom edge 83 of blank 82. Such a lip, indicated at 86 and joined to liner side wall 74, may be either internal or external to liner side wall 74 as indicated in
Alternatively, portion 78 of blank 82 can be replaced by a separate piece that is provided with an upturned lip such as 86 and secured to a blank such as blank 52.
Embodiments have been described above with the cup and liner having a generally frustoconical shape. If desired, one or both of the cup and liner can be formed to have a conical shape that is, having a bottom end terminating in a point. By having both cup and liner made of a conical shape, manufacturing costs can be further reduced as may be important in certain applications. That is, if the conical cup and liner are made from sheet materials, only a single manufacturer's joint is required for each of the cup and liner. Similar economies can be enjoyed. when either the cup or liner or both are made of a molded material.
If one of the cup and liner is made frustoconical and the other conical in shape, cavities having significantly enlarged volumes can be provided in a preparation system which is aesthetic as well as functional. For example, a conical liner disposed within a frustoconical cup would be made to have the. same general appearance as a conventional frustoconical coffee cup, and yet provide a substantially enlarged volume for the material component stored in the cavity between the liner and the cup.
Although preparation systems of conical or frustoconical configuration have been mentioned above, other configurations are possible. For example, cups with generally round or ovoid configurations are possible, with upper rim of the cup conforming to a user's face. Such configurations are advantageous for inhalation therapy, for example.
In use, a consumer may purchase a quantity of food preparation systems, each pre-charged with a predetermined amount of beverage component or other food material. For example, if the beverage component or food material is either coffee grounds, tea ingredients, tea leaves, or soup bouillon, for example, a user need only add heated water to conveniently prepare a predefined serving size of beverage of predetermined concentration, in a single piece disposable system assembly.
The present invention also contemplates other commercial uses of the preparation system for non-food items. For example, pre-measured chemical components, such as analytical reagents or indicators, can be conveniently provided in the cavity, in place of the beverage component or food material. A second, liquid chemical component can then be added to the cup on demand, to provide a chemical composition. If desired, the inner surface of the liner can be marked with graduations for convenient preparation of different concentrations of chemical compositions, as may be desired. When use of the chemical composition is completed, the preparation system can be disposed of, according to accepted safety practices, without requiring further handling of the system or its components.
Still other applications outside of the food industry are possible with preparation systems according to the present invention. For example, field testing of ground water, process liquids or other liquid materials can be provided to field personnel, including personnel having minimal training, to conduct color change tests other chemical field tests. In the healthcare field, testing previously carried out in a laboratory environment can now be carried out in a doctor's office or at home, for example. Solid, gelatinous or very viscous materials can be pre-loaded in preparation systems according to principles of the present invention. An overwrap of plastic, for example, can be applied to each preparation system unit for individual use on demand. Such systems could be beneficial for diabetic and other types of urinalysis.
The present invention can also benefit healthcare which requires human or animal consumption of medications and other treatments. For example, cold and flu medications can be dispensed in preparation systems according to the present invention, and individually packaged under sterile conditions for subsequent use. The preparation systems can be dispensed in single units of pre-dosed contents, as required. If desired, large numbers of preparation systems can be quickly manufactured when required to treat masses of people suffering from naturally occurring viruses, as well as biological weapons.
The simple and inexpensive materials used for the construction of the preparation systems readily lend themselves to color printing or other graphical indication clearly identifying the concentrations or different qualities of the materials dispensed in the preparation systems. By providing graduations in either the liner or cup or both, accurate concentrations of solutions may be prepared on demand, based upon a known quantity of material disposed in the cavity of the preparation system.
Although it is generally preferred that the preparation system be used by introducing liquid into the liner, other uses are possible. For example, material can be pre-dispensed in the cavity of the preparation system, and packaged in an airtight manner using known techniques. A preparation container can be fitted, molded or otherwise formed to function as a mask covering a patient's nose or mouth, for example. Upon exposure to ambient air or oxygen, or upon contacting a liquid, material disposed within the preparation system can undergo vaporization or sublimation at a controlled rate, ready for ingestion or inhalation by a patient. Likewise, a gaseous medicament can be released upon contact with water or other compatible liquid. If desired, various ports and nipples can be added to the preparation system for connection to hoses and other systems external to the preparation system.
As described above, the cavity formed between the liner and cup is generally continuous throughout. If desired, the cavity can be provided with internal walls to provide plural compartments for separating a plurality of materials disposed within the cavity and made ready for combination with a liquid or other solvent or carrier material. For example, multiple components can be dispensed within the preparation system, each component situated in an individual compartment and separated from the other compartments. Upon addition of heated water or other solvent, the components will freely mix, forming a desired product.
Although a completed assembly has been described above, the present invention also encompasses preparation systems used by food and drug manufacturers, for example, for subsequent loading of material to be trapped between the cup and liner. The same cup and liner components can be used with a wide variety of food, drug, chemical testing or other materials to be dispensed in measured quantities, in conjunction with joining the liner and cup components together. The completed assembly can then be sterilized or otherwise treated as necessary and individually packaged for subsequent use.
The foregoing description and the accompanying drawings are illustrative of the present invention. Still other variations in arrangements of parts are possible without departing from the spirit and scope of this invention.