SYSTEM AND METHOD FOR DETECTION OF A CONTAMINATED BEVERAGE

Abstract

A system and method for a beverage container configured to test for a contaminated beverage in the beverage container comprises a base of the beverage container, an upper portion of the beverage container, and a sidewall with an inner surface and an outer surface that extends from the base to the upper portion, and a testing material. A portion of the beverage container is the testing material configured to visibly react when the portion of the beverage container is contacted with the contaminated beverage.

Description

FIELD OF THE DISCLOSURE

The present disclosure relates generally to contamination detection, and, more particularly, to detecting when a beverage has been contaminated.

BACKGROUND OF THE DISCLOSURE

Drug facilitated sexual assaults are a ubiquitous problem. Commonly known as “date rape”, the sexual assault generally occurs while the victim is incapacitated due to unknowingly imbibing chemical substances (i.e., drugs) surreptitiously placed in the victim's beverage by an assailant. Some common drugs associated with date rape are, e.g., Rohypnol, Ketamine, GHB (Gamma-Hydroxybutyrate), GBL (Gamma Butyrolactone), and 1,4-butanediol. Once ingested, the chemicals may act rapidly in the human body, often within 20 minutes, causing physical and psychological symptoms such as disinhibition, muscle relaxation, passivity, and loss of will to resist an assailant.

There are known techniques for detecting when a victim has ingested such drugs. For example, Woods et al., Journal of Chromatography, A 2004, 1056: 83-90, describes a system for simultaneous analysis of GHB and its precursors in urine using liquid chromatography-tandem mass spectrometry. Though this and similar techniques may be effective, a disadvantage is that they are not practical for non-professionals, and they require expensive equipment. Another disadvantage is the reactive nature of the test, meaning the system is testing the urine, thus the drugs have already been ingested and the victim may have already been assaulted before testing is even contemplated.

Other testing devices, such as those described in U.S. patent application Ser. No. 10/583,512 filed on Dec. 16, 2004 by Grossman et al., titled APPARATUS FOR DETECTING DRUGS IN A BEVERAGE, and in U.S. Pat. No. 6,153,147 issued on Nov. 28, 2000 by Craig, titled BEVERAGE ANALYSIS SAMPLE, provide a more immediate and proactive approach through early detection. For example, Craig discloses a test apparatus utilized by the user at the site and time of beverage consumption. A portion of the beverage must first be captured by the user and drawn into an analysis chamber where the beverage is subjected to a chemical reagent composition, where the results of a color assay are viewable. That is, a color change may indicate a drug has been placed in the beverage.

Other testing devices may use the proactive techniques, but also provide discretion when testing a beverage for contamination. For example, the testing device described by Greenberg in U.S. patent application Ser. No. 11/899,646 filed on Sep. 7, 2007, titled STRAW HOLDER INTEGRATED WITH A BEVERAGE CONTAINER, shows a testing material that a user may utilize to test the beverage. Notably, the testing material is part of an entirely separate component which itself must then be connected to a beverage container.

A more discrete testing apparatus can be found in U.S. patent application Ser. No. 10/761,066 filed on Jan. 20, 2004 by Guerra et al., titled APPARATUS AND METHOD FOR TESTING A BEVERAGE FOR A CLANDESTNE ILLICIT SUBSTANCE. Hiding the test strips allows the user to test the beverage without embarrassment by onlookers. For example, Guerra describes camouflaging and/or hiding individual drug testing strips in such things as a cocktail napkin, a beverage coaster, a placemat, a menu, a match book, a drink carrier (e.g., used to carry multiple drinks at once), a flyer, a coupon, and even a business card. As another example, the testing apparatus described in U.S. patent application Ser. No. 11/266,690 filed on Nov. 3, 2005 by Cordani et al., titled LIQUID TEST PROBE, is camouflaged as a drinking straw. Notably, the disguised drinking straw only functions as a test device and not as an actual straw. Yet another example can be found in U.S. patent application Ser. No. 12/150,505 filed on Apr. 28, 2008 by Sliwa et al., titled BUOYANT-CAPABLE BEVERAGE AND FOOD CONTENT-SENSOR, describing a separate floating device in a beverage where the testing material is located. To test the beverage, the user must first remove a sample of the beverage and place it on the test portion of the device.

However, the prior art suffers from numerous disadvantages. For example, regardless of how quick a test result is determined, or how discreetly a testing apparatus may be hidden, the responsibility to carry the testing apparatus on oneself is burdensome and rests solely on the user. Moreover, even if a beverage has been tested at time T₁, there is no assurance that the beverage subsequently has not been contaminated at time T₂. Thus, there is an additional requirement for the user to continuously test and re-test the beverage and to have the user bring enough testing material to do so. Testing and retesting the beverage is not only a hassle, but remembering to do so may become more difficult as time progresses (e.g., due to increased alcohol consumption). Additionally, as more alcohol is consumed, a user may be less able to distinguish between the normal effect of an alcoholic beverage and the effect of a contaminated alcoholic beverage. Accordingly, there remains a need for a more convenient, effortless, and continuous system to detect if and when a beverage has been contaminated.

SUMMARY OF THE DISCLOSURE

The present disclosure overcomes the disadvantages of the prior art by providing a system and method for detection of a contaminated beverage, e.g., by using the beverage container itself (e.g., a drinking cup) as a testing material. For example, in one embodiment, the inside portion of the beverage container which is used to hold the beverage is also the testing material that may visibly alert, signal, or otherwise react when contacted with a drug that is mixed in the beverage (e.g., Rohypnol, Ketamine, GHB (Gamma-Hydroxybutyrate), GBL (Gamma Butyrolactone), 1,4-butanediol, etc.). The reaction, e.g., color change, may then rapidly alert the user that the beverage in the beverage container is contaminated before too much, if any, of the contaminated beverage has been consumed.

In another embodiment, the testing material of the beverage container may be coated or lined with a film (e.g., wax). For example, if the testing material is part of the inside of the beverage container, the wax film may prevent the beverage contained within the beverage container from immediately contacting and reacting with the testing material. Thus, should the user desire to test the beverage for contaminants, the user need only, e.g., “scratch” away or otherwise remove the protective wax lining, thereby exposing the newly revealed testing material inside the beverage container to any potential contaminants in the beverage held in the beverage container. In such an embodiment, the beverage container advantageously provides multiple locations for individual testing by scratching away the wax film from different locations as desired. In alternative embodiments, the wax lining may be a type of semi permeable membrane or other similar material used to provide a delay from when the beverage is placed in the beverage container and when the beverage and any contaminants mixed therein eventually permeate through the lining to make contact with the testing material where a reaction may be seen. Thus, it is possible that little or no action is required by the user to test or re-test the beverage.

Advantageously, by using the beverage container itself as the testing material, the is user is provided with a (near) effortless and continuous monitoring of the beverage within the beverage container without such illustrative burdens required by the prior art, such as, inter alia, remembering to bring a testing kit (disguised or otherwise) with a sufficient number of testing strips, remembering to test the beverage, and remembering to re-test the beverage at different times. As another advantage, even if the user cannot distinguish between the effect of the alcohol and the effect of ingesting a contaminated beverage, other onlookers may still notice the reaction of the beverage container (i.e., the testing material) and provide a warning to the user.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and further advantages of the disclosure may be better understood by referring to the following description in conjunction with the accompanying drawings in which like reference numerals indicate identically or functionally similar elements, of which:

FIG. 1 is a schematic block diagram of an illustrative beverage container that may be used in accordance with the present disclosure;

FIG. 2 is a schematic block diagram of an illustrative beverage container that may be used in accordance with the present disclosure;

FIG. 3a is a schematic block diagram of an illustrative beverage container with a protective film that may be used in accordance with the present disclosure;

FIG. 3b is a schematic block diagram of an illustrative beverage container with a protective film that may be used in accordance with the present disclosure;

FIG. 3c is a schematic block diagram of an illustrative beverage container with a section of protective film removed that may be used in accordance with the present disclosure;

FIG. 3d is a schematic block diagram of an illustrative beverage container with a section of protective film removed that may be used in accordance with the present disclosure;

FIG. 4 is a schematic block diagram of an illustrative beverage container with a protective film that may be used in accordance with the present disclosure;

FIG. 5a is an illustrative procedure for using the beverage container in accordance with one or more embodiments of the present disclosure;

FIG. 5b is an illustrative procedure for using the beverage container in accordance with one or more embodiments of the present disclosure;

FIG. 6a is a schematic block diagram of an illustrative portion of a beverage container that may be used in accordance with the present disclosure; and

FIG. 6b is a schematic block diagram of an illustrative portion of a beverage container that may be used in accordance with the present disclosure.

DETAILED DESCRIPTION OF AN ILLUSTRATIVE EMBODIMENT

Drug Testing

As can be appreciated by those skilled in the art, there are well known techniques and testing materials that may be used to detect the presence of drugs in a liquid. For example, as noted above with reference to U.S. Pat. No. 6,153,147, a device or testing strip may comprise one or more reagent indicators deposited on an absorptive carrier (e.g., filtration paper). Different reagent indicators may be used for detecting different drugs. For example, flunitrazepam, which is commonly known as Rohypnol or “Ruffies”, is a member of a class of compounds known as benzodiazepines. A reaction with Zimmermann's reagent, or a reaction with a platinum/potassium iodide test system, for example, can illustratively detect this class of compound. 4-Hydroxybutanoic acid, also known as gamma hydroxy butyrate (GHB), is a commonly known anesthetic. GHB can illustratively be identified in a reaction system with, e.g., bromo cresol purple. Ketamine is another anesthetic which can illustratively be identified using, e.g., cobalt thiocyanate. Those skilled in the art will recognize that other reagent indicators suitable for testing a beverage are also contemplated for these drugs and different drugs. As such, the reagent indicators described are exemplary only and should not be taken to limit the scope of the disclosure.

In some testing systems, visual indications from the testing material (e.g., the reagent) may be observed when a drug is detected. One type of visual indicator may be color change. For example, if a sample of a beverage is introduced to a testing area with the reagent, a color change from white to a violet/purple color may be observed at the reagent within 30 seconds or less if Rohypnol is present in the sample. If a violet/purple color is not observed within 30 seconds, the beverage analysis may be considered negative for Rohypnol. As another example, if the sample is introduced to a testing area with a reagent to detect GHB, a color change from white to a yellow/orange color may appear within 30 seconds or less if GHB is not present in the sample. However, if GHB is present, a purple/black color may appear within 30 seconds or less. In a preferred embodiment, any color change would appear in response to detecting the presence of a drug, rather than having a color change appear in response to detecting that the drug is not present. While not required, the preferred embodiment may be helpful to avoid confusion, for example, should the user forget what each color indicates.

Notably, while some examples of reagents and tests are described, those skilled in the art will appreciate that other reagents, tests, color combinations, calorimetric indicators, etc., for similar and/or other drug types are well known in the art and may be used with embodiments of the present disclosure without departing from the scope and spirit of the disclosure. As such, the described detection methods and devices (e.g., color coma) binations, test strips, particular reagents, etc.) or other functional equivalents that have similar properties capable of carrying out the objectives of the disclosure are contemplated. Accordingly, the specific testing materials described should be taken as exemplary only and not to limit the scope of the disclosure.

Beverage Container

The present disclosure overcomes the disadvantages of the prior art by providing a system and method for detection of a contaminated beverage, e.g., using the beverage container itself as a testing material. That is, at least a portion of the beverage container itself is the testing material. For example, in one embodiment, the inside of the beverage container itself is not only the surroundings of the beverage container that holds the beverage, but the inside of the beverage container itself is also the testing material that may react when contacted with a mixture of the beverage and a drug, such as Rohypnol, Ketamine, GHB (Gamma-Hydroxybutyrate), GBL (Gamma Butyrolactone), 1,4-butanediol, etc. Using the beverage container as the testing material illustratively may be implemented in some embodiments by (i) removing and then replacing a portion of the beverage container with the testing material, (ii) directly attaching the testing material to a portion of the beverage container (with or without removing the portion), or (iii) any combination thereof. The reaction of the testing material, e.g., color change of the beverage container, may then rapidly alert or signal to the user that the beverage in the beverage container is contaminated before too much, if any, of the contaminated beverage has been consumed.

According to one embodiment, only select portions of the beverage container, such as the rim or the inside/outside of the beverage container, are lined with the testing material. However, the entirety of the beverage container may also be lined with the testing material. Moreover, it is contemplated that the entirety of the beverage container could be configured as the testing material shaped as the beverage container in an alternative embodiment. In the latter embodiment, it may be necessary to fortify the testing material so as to enable the testing material to act as a beverage container (e.g., to prevent leaking through the testing material). The film described in greater detail below may be used to fortify the testing material. However, other conventional techniques similar to those used on conventional paper or cardboard beverage containers described below may also be used and are well known in the art.

Advantageously, by using the beverage container itself as the testing material (e.g., where the beverage container functions as both a beverage container and as the testing material), the user is provided with a (near) effortless and continuous monitoring of the beverage within the beverage container without such illustrative burdens required by the prior art, such as, inter alia, remembering to bring a testing kit (disguised or otherwise) with a sufficient number of testing strips, remembering to test the beverage, and remembering to re-test the beverage at different times. As another advantage, even if the user cannot distinguish between the effect of an alcoholic beverage and the effect of ingesting a contaminated alcoholic beverage, other onlookers may still notice the reaction of the beverage container and provide a warning to the user. Additionally, the testing material of the beverage container (e.g., any unused portions) may also be used to test other beverages of different users, such as an acquaintance that may not be in possession of either the disclosed beverage container or their own tests.

FIG. 1 is a schematic block diagram of an illustrative beverage container 100 that may be used in accordance with the present disclosure. As used herein, the term “beverage container” is defined as any conventional container configured to hold a consumable beverage (e.g., soda, water, beer, etc.) from which a user would drink, such as a cup (e.g., disposable, reusable, paper, plastic, etc.), a glass, a mug, a can (e.g., an aluminum can), a bottle (e.g., a soda bottle), etc. Illustratively, in a preferred embodiment, the beverage container may be disposable, such as the kind sold by Solo® Cup Company headquartered in Lake Forest, Ill. The beverage container may comprise a base 110 (e.g., a lower portion), an upper portion which may comprise a rim 120, a sidewall 112, and testing material 130. The testing material illustratively may be affixed to the beverage container using an adhesive or other similar material which is well known in the art; however, any suitable material may be used. In an alternative embodiment, a portion of the beverage container 100 may be removed 135 and then replaced with the testing material (e.g., by directly attaching the testing material to the removed portion using an adhesive). A sidewall 112 with an inner surface and an outer surface may extend from the base to the upper portion. According to one embodiment, the testing material 130 is at least a portion of the beverage container 100 (e.g., the inner surface of the beverage container's base 110 and/or the rim 120, and/or the sidewall 112 as indicated by the dashed lines). This may be further illustrated in FIGS. 6a and 6b where the testing material 630 is shown as the inner wall surface 615. However, the testing material may also be the outer surface of the beverage container or any other portion of the beverage container. However, it is likely that the user may have to be more proactive about testing if the testing material is on the outside of the sidewall, since in some embodiments, the outside wall does not contact the testing material without help from the user. Nonetheless, this situation may be obviated if the testing material is placed on the outer portion of the sidewall where some of that portion has been removed 135. Any descriptions or illustrations used throughout where the testing material is a specific portion of the beverage container (e.g., the inner surface of the sidewall) should be taken as exemplary only.

According to an illustrative embodiment of the present disclosure, the testing material 130 lining the beverage container 100 remains a single color (e.g., white) as a default base color when no illicit drugs, such as those noted above, are detected. As can be appreciated by those skilled in the art, any other color (including clear or transparent) may be used as the default base color. Preferably, the base color is one that will be readily noticeable to the user or other onlookers if the base color should change, even if the user is in a dimly lit area, such as a dance club or a bar. For example, if the beverage container is white, then a positive drug detection color of black may be easier to notice. As can be appreciated, the use of a clear or transparent beverage container may be easier for the user (or an onlooker) to see a color change of the testing material (i.e., the beverage container) than a less transparent beverage container. Advantageously, because the illustrative embodiments of the beverage container functionally are also the testing material, should a drug be introduced to the (alcoholic or non-alcoholic) beverage in the beverage container, the testing material 130 located in the base 110, the rim 120, or the sidewall 112, will automatically (i.e., without a requirement for the user to do anything if the beverage is in the beverage container) contact the beverage and change color to alert the user of the contamination with minimal action, if any, required by the user. This is advantageous as there is little or no need for the user to actively test or re-test the beverage before being warned about the contamination. Thus, the user may be alerted before too much, if any, of the contaminated beverage has been consumed.

FIG. 2 is a schematic block diagram of an illustrative beverage container 200 that may be used in accordance with the present disclosure. The beverage container may comprise a base 210, a rim 220, a sidewall 212, and a testing material 230. According to one embodiment, the testing material may be part of the inner/outer lining of the beverage container's base 210, sidewall, or rim 220, as indicated by the dashed lines. According to yet another embodiment, the testing material 230 lining the beverage container may be divided up into different sections (e.g., drug/section 1-4). Each section may comprise a distinct testing material specific to an individual drug. For example, drug/section 232 may be configured to detect GHB, while drug/section 234 may be configured to detect GBL. Accordingly, not only may the user be able to discern that a drug has been introduced to their beverage, but also which drug. Those skilled in the art will appreciate that more or less drug/sections may be used. Those skilled in the art will also appreciate that the drug/sections may be divided other ways besides vertically in any direction or pattern (e.g., horizontal, diagonal, etc.). Thus, the use of only four sections and in any particular configuration should be taken as an example only. In a preferred embodiment, the sections are organized vertically so that the beverage is capable of drug detection regardless of the level of beverage within the beverage container.

In an alternative embodiment, the beverage container 200 may also comprise separate and specific indicators, such as indicator(s) 240. For example, when a particular drug/section detects a drug, the indicator 240 may give an additional warning by changing color on the inside of the beverage container and/or on the outside of the beverage container. Illustratively, this may be accomplished by creating a clear or transparent section specifically for indicators 240, resulting in a distinguishable or otherwise dramatic contrast between the outside of the beverage container (e.g., red) and the indicator 240 (e.g., black). Alternatively, this may be accomplished using a more absorptive testing material that is capable of delivering a sample of the beverage up to the indicators 240.

FIG. 3a is a schematic block diagram of an illustrative beverage container 300 with a protective film that may advantageously be used in accordance with the present disclosure. According to one or more illustrative embodiments of the disclosure, the testing material may be coated or coupled with a film (e.g., wax) 340. The wax film may slow or fully prevent the beverage contained within the beverage container from contacting and reacting with the testing material 330 lined, for example, within the inner surface of the base 310 (e.g., lower portion) of the beverage container, the sidewall 312, and/or the rim 320. The film may illustratively comprise a porous substance or other semi permeable material (e.g., membrane) that, over time (e.g., 5 minutes), allows the beverage in the beverage container to pass through the film to contact and react with the testing material. Notably, regardless of how long it takes the beverage to reach the testing material, the time required to notice a reaction (e.g., a color change if the drug is present) may depend on the amount of the beverage relative to the concentration of the drug that is present. According to an alternative embodiment of the disclosure, as noted above, the testing material illustratively may be affixed, united, or otherwise secured to the beverage container using an adhesive, glue, epoxy, or other functional equivalent that has similar properties, before the protective film is applied; however, it is contemplated that the protective film itself may be used in place of or in addition to the adhesive to affix or otherwise secure the testing material to the beverage container. However, any suitable technique or material used to secure the testing material to the beverage container or otherwise make the material of the beverage container comprise the testing material may also be used without departing from the scope and spirit of the disclosure. For example, in an alternative embodiment, a portion of the beverage container 300 may be removed 335 and then replaced with the testing material (e.g., by directly attaching the testing material over the removed portion secured to a non-removed portion 136). In the latter embodiment, it may be beneficial to apply another coating of a liquid resistant wax on the outer most side of the testing material to prevent dripping. Alternatively, a window 337 may be placed over the outer most side of the removed section.

Examples of different wax types and techniques for coating beverage containers are very well known in the art, some of which may be found in, e.g., in U.S. Pat. No. 3,450,327 issued on Jun. 17, 1969 by R. E. Ludder, titled ROUND NESTABLE PAPER CONTAINER HAVING A HIGH GLOSS EXTERIOR FINISH AND AN INTERIOR AND BOTTOM WAX COATED SURFACE, and in U.S. Pat. No. 4,168,676 issued on Sep. 25, 1979 by Itoh, titled PPARATUS FOR MAKING PAPER CONTAINERS, and in U.S. Pat. No. 5,456,754 issued on Oct. 10, 1995 by Matheson et al., titled APPARATUS FOR COATING PAPERBOARD CONTAINERS. For example, Matheson describes directing a relatively narrow spray band of atomized wax towards the interior surfaces of the containers. Matheson goes on to describe that the spray band is volumetrically asymmetrical and is oriented relative to the interior surfaces of the container such that its volumetric asymmetry is directed towards the bottom circumferential seam between a tubular sidewall and bottom wall of the containers. However, those skilled in the art will appreciate that any suitable technique for applying the wax (or other material) to one or more illustrative embodiments of beverage container may be employed without departing from the spirit and scope of the disclosure.

While some examples of the disclosure are discussed using a wax film, those skilled in the art will appreciate that other protective film or coating material may be used. For example, a thermoplastic polymeric material, such as polyethylene, may also be used. Yet another example may be the use of biopolymers, which may generally be described as polymers produced by living organisms. Cellulose, starch, chitin, proteins, and peptides are some examples of biopolymers. Another example of a biopolymer is zein, which is alternatively used as a coating for various foods, such as fruit, to slow the aging process produced by water evaporation. Zein has a number of characteristics that may be valuable for use in the present disclosure. For instance, zein is a natural filmforming polymer, which may provide some of the described resistance to water or other liquid penetration. Zein is also typically non-allergenic and edible. It is also classified as “GRAS” (generally recognized as safe) by the FDA. Those skilled in the art will appreciate that other types of biopolymers or other suitable material capable of carrying out the objectives of the disclosure may also be used without departing from the scope and spirit of the present disclosure. For example, M14-TS, which is well known to those skilled in the art as a water ammonia solution of shellac mixed with Carnauba emulsion and added inerts may also be used.

As will be discussed in greater detail with regard to FIG. 3c, the lining may be removed by the user to expose the testing material to the beverage. As such, another example of the lining material may also be similar to “scratch-off” lottery game pieces, such as the one described in U.S. Pat. No. 5,154,448 issued on Oct. 13, 1992 by Griffin et al., titled SCRATCH-OFF MARKING LABEL. As such, the use of a wax, biopolymer, etc. as the film or coating should not be considered to limit the scope of the disclosure. Those skilled in the art will appreciate that any suitable material (i.e., fluidimpervious or semi-fluid impervious characteristics or functional equivalent that has similar properties) is contemplated that may prevent the beverage contained within the beverage container from immediately contacting and reacting with the testing material of the beverage container (e.g., which may subsequently be readily (e.g., without much difficulty) removed by the user).

In another embodiment, as seen from FIG. 3b, there may be different types of wax film materials each covering a particular section of the testing material, thereby allowing for varying times when the beverage may pass through the film to the testing material, e.g., depending on the type and thickness of film used. For instance, one section 332 of the testing material may be generally protected (e.g., covered) by a more porous or semi permeable film material that may allow the beverage in the beverage container to pass through the film to the testing material 330 quicker than another section 334 of the testing material 330 that is generally protected by a less porous film material. As such, the beverage container would first “automatically” (i.e., without a need for the user to do anything once the beverage is in the beverage container) “self-test” the beverage at section 332 at a first predetermined time and then “automatically” self “re-test” the beverage at section 334 at a second predetermined time according to how much less porous the film is at each respective section. As can be appreciated by those skilled in the art, other factors in addition to how porous the film is, such as temperature, surface area to volume ratio, etc., may also affect the rate at which the beverage may pass though the film to the testing material. Illustratively, each section may be capable of testing the same drugs (e.g., X, Y, Z), thus, each drug (e.g., X, Y, Z) may be covered by the “re-test” at each section. While only two different rates (e.g., a quicker and a slower rate) are described, those skilled in the art will recognize that any number of different sections 336 and 338 (and different rates) may be used either separately or simultaneously depending on the different types of film used. Thus, the use of only two different rates (for two different types of film) is an example and should not be taken as limiting the scope of the disclosure.

In alternative embodiments, as illustrated in FIG. 6b, multiple applications (i.e., layers/coatings, 615, 617, etc.) of the same film material may be applied to a particular section to achieve the desired result of varying (e.g., slowing) the rate that the beverage in the beverage container, and therefore any drug mixed in the beverage, will pass through the film to contact the testing material. It is also contemplated that different wax types may also be applied to the same section to vary the rate. Thus, other similar methods or combinations thereof to slow or increase the rate at which the beverage in the beverage container will contact the testing material may also be used without departing from the scope and spirit of the disclosure.

Advantageously, because each section may have a known estimated time for when the beverage may pass though the film, it may be possible to discern an approximate time when a drug was placed in the beverage container. For example, assume a first section 332 of the beverage container is estimated to allow the beverage to pass though the film in about 10 minutes. Further assume that a second section 334 of the beverage container is estimated to allow the beverage to pass though the film in about 20 minutes. Further assume that once the testing material at the first section 332 is initially exposed to an uncontaminated beverage for more than, e.g., a couple minutes, then that testing material for section 332 may no longer be able to react (e.g., change color) even if subsequently exposed to a contaminate, since the reagent(s) in the testing material may be too diluted. Thus, in the example, if the first section 332 does not show a reaction, but the second section 334 does show a reaction, then it is likely that the beverage was contaminated sometime between the 10 minute period and the 20 minute period. Therefore, by comparing (i) the section which does show a reaction to (ii) the previous section that does not show a reaction, it may be possible to discern an approximate time when a drug was placed in the beverage container. This may aid in determining who drugged the beverage (i.e., who had access to the beverage within the 10 minute time span).

FIG. 3c is a schematic block diagram of the illustrative beverage container 300 similar to that of FIG. 3a with at least one section of protective film removed 350 that may be used in accordance with the present disclosure. In one embodiment, the user may be required to actively remove the wax lining 350 before the beverage will be exposed to the testing material. However, in an alternative embodiment, should the user desire to test the beverage for contaminants at an earlier time rather than waiting for the beverage to pass through the film 350 (as discussed with regard to FIG. 3b), the user may instead choose to, e.g., “scratch” away or otherwise remove the wax lining, thereby enabling the user to more immediately expose the beverage to the newly revealed testing material. By enabling the user to selectively remove portion(s) of the film as desired, the beverage container advantageously provides multiple locations for individual test sites and at different times. For example, the user may remove the wax lining (e.g., upper left portion) in the rim 320 at T₁. If the testing material shows the beverage is not contaminated, the user may continue drinking the beverage. However, if the user begins to feel strange and questions whether or not the beverage has been contaminated, the user may subsequently remove the wax lining (e.g., upper right portion) in the rim 320 at T₂. As noted above, using substances such as zein as the film may be beneficial as it is non-allergenic and edible. Thus, there may be no known consequence if the user were to accidentally scratch the film into the beverage and ingest it.

Advantageously, according to one embodiment, any remaining area of wax film coating the testing material may be an area capable of being used to test the beverage. That is, any area where the wax has not been removed is illustratively a viable area to test the beverage regardless of any previous tests conducted at other locations. As can be appreciated by those skilled in the art, the viability of using an area where the film has not yet been removed may depend on different factors, such as whether the beverage sampled through the removed portion of the film may “leak” to the testing material under the film that has not yet been removed. One exemplary embodiment to protect against “leaking” may be to have the testing material separated by areas of non-testing material that may be used to prevent or otherwise curtail the undesired migration of the beverage entering from the removed portion of the film. For example, sections 332 and 336 may have film covering testing material, whereas sections 334 and 338 may comprise non-testing material used as a “bumper” to prevent the beverage from crossing sections. However, allowing such cross section leaking may be beneficial for other reasons, such as an alternative is way to distribute the beverage in the beverage container throughout to other portions of the testing material without further effort by the user, or as a way to maintain samples of the beverage for later use (e.g., evidence in a police investigation).

FIG. 3d is a schematic block diagram of the illustrative beverage container 300 similar to that of FIG. 3c with at least one section of protective film removed that may be used in accordance with the present disclosure. According to one embodiment, assume that the beverage in the beverage container has been contaminated with, e.g., GHB. As noted above in FIG. 3c, the section(s) of protective film have been removed 350, for example, by the user to test the beverage for contamination. As a result of removing the wax film from locations of the beverage container, those corresponding areas of testing material 330 are now exposed 360 to the beverage in the beverage container and therefore exposed to the GHB. As such, to alert the user of the contamination, the exposed area of test material 360 may display a visual alert (e.g., color change, pattern, etc.). Notably, as discussed above with regard to FIG. 3c, only the exposed area of test material 360 is affected (e.g., visually) since only those areas have the film removed, thereby exposing the testing material to the GHB in the beverage. However, the beverage may enter through any of the exposed areas to other portions of unexposed testing material, thereby providing the visual affect to those areas in addition to the exposed areas.

FIG. 4 is a schematic block diagram of an illustrative beverage container 400 with a protective film that may be used in accordance with the present disclosure. According to one embodiment, the beverage container may be a can (e.g., aluminum can) such as the kind typically used to hold soda, beer, and other beverages. The beverage container illustratively comprises drug testing material in various locations. For example, the testing material (e.g., exposed/unexposed 460/470 respectively) may be directly affixed to the top of the beverage container, or alternatively, on the outer sidewall. Some of the beverage may tend to pool on that surface as a result of the motions involved while drinking from the beverage container. Thus, it may be less cumbersome for the user to test the beverage by using the portions of the beverage already pooled on the top, for example, in an embodiment where the beverage container is a closed top beverage container.

According to another illustrative embodiment, assume that the beverage in the beverage container 400 has been contaminated with, e.g., Rohypnol. Similarly to FIG. 3c, some section(s) of protective film have been removed (i.e., exposed area of test material 460), for example, by the user to test the beverage held by the beverage container. On the other hand, some section(s) of protective film have not yet been removed (i.e., unexposed area of test material 470). As a result of removing the wax film from these locations of the beverage container, those corresponding areas 460 of testing material are now capable of being exposed to the beverage and therefore exposed to the Rohypnol. As such, to alert the user of the contamination, the exposed area of test material 460 displays a visual alert (e.g., color change, striped or other pattern, etc.). Notably, according to the embodiment, any remaining area of wax film coating the testing material (i.e., unexposed area of test material 470) may still be an area capable of being used to test the beverage at a subsequent time (e.g., depending on how porous the film coating the unexposed area is).

According to another embodiment, a portion of the beverage container 400 may be removed and then replaced with the testing material. In the embodiment, it may be beneficial to apply another coating of a liquid resistant wax on the outer most side of the testing material to prevent dripping. In the illustrative embodiment, the testing material may be part of the inside of the beverage container, where any indication of contamination from the testing material may be viewed through a display window 480. Preferably, the display window 480 should be of a sufficiently transparent or translucent material, e.g., plastic or otherwise, that allows a user to sufficiently discern a change in the testing material caused by beverage contamination within the beverage container. This may be advantageous in embodiments such as those where inside of the beverage container comprising the testing material is not otherwise viewable by the user (e.g., closed top beverage containers). Alternatively, the display window may be configured such that when no contamination is detected in the beverage contained within the beverage container, the display window is disguised as, for example, a logo of the beverage container.

FIG. 5a is an illustrative procedure for using the beverage container in accordance with the present disclosure described herein where the (e.g., wax) film is readily removable by the user. This illustrative procedure assumes a beverage is currently contained is within the beverage container. The procedure 500a starts at step 505a, and continues to step 510a, where at least a portion of the wax film is removed, e.g., by the user. As noted above, the wax film prevents the beverage contained within the beverage container from immediately contacting and reacting with the testing material lined, for example, within the inner surface of the sidewall 312, the base 310, the rim 320, or the top (e.g., as similarly shown by example in either FIG. 3a-d and/or FIG. 4 above). Thus, should the user desire to test the beverage for contaminants, the user need only, e.g., “scratch” away or otherwise remove the wax lining, thereby exposing the beverage to the newly revealed testing material. In alternative embodiments, as noted above, the scratching step is not necessarily required, since the beverage may be automatically tested according to, e.g., how porous the (wax) film is. Notably, in embodiments where no such film is present, step 510a and 560a may be skipped. Once the testing material is exposed to the beverage, it is determined whether the testing material indicates that the beverage is contaminated (e.g., with a drug) in step 520a. If yes, the procedure moves to step 530a where the testing material indicates that the beverage is not safe to drink. Any type of indication or alert is contemplated where the user is made aware of the outcome of the test. For example, the indication may be visual (e.g., a color change in the test material). However, any suitable means of indication may be used. The procedure then ends at step 540a.

However, if at step 520a the determination is no, the procedure moves to step 550a where the testing material indicates that the beverage is safe to drink. Such an indication, if any, may be the absence of a visual indicator. However, any suitable indication (e.g., visual or otherwise) may be used. The beverage container may comprise multiple locations for individual testing by scratching away the wax film from different locations as desired. This may be useful in such situations where the user is unsure about the accuracy of the previous test and would like to re-test the beverage using another location. This may also be useful, for example, where a beverage has tested negative for contamination at time T₁, but the user believes that the beverage may have been subsequently contaminated at time T₂. The procedure then moves to step 560a where the user may select an unused test material portion for another test. The procedure then loops back to step 510a.

FIG. 5b is an illustrative procedure for using the beverage container in accordance with the present disclosure where at least a portion of the (e.g., wax) film is not required to be removed by the user. FIG. 3b is an example embodiment which may apply to the procedure. This illustrative procedure assumes a beverage is currently contained within the beverage container. The procedure 500b starts at step 505b, and continues to step 510b, where a first section of the beverage container 332 is selected to check for a visual indication of contamination of the beverage within the beverage container. As noted above, the film prevents the beverage contained within the beverage container from (immediately) contacting and reacting with the testing material lined, for example, within the inner or outer surface of the base 310, the rim 320, the sidewall 312, or the top (e.g., as similarly shown by example in either FIG. 3a-d and/or FIG. 4 above). Thus, should the user desire to test the beverage for contaminants, the user need only, e.g., “scratch” away or otherwise remove the wax lining, thereby exposing the beverage to the newly revealed testing material. However, this scratching step is not necessarily required in order to test the beverage due to the porous nature of the film as described above. For example, as discussed above, each section may allow for varying times when the beverage may pass through the film to the testing material, e.g., depending on the porous nature, type, and/or amount of the film used at each section. Once the testing material of the first section of the beverage container is exposed to the beverage, e.g., either by removing the film or due to the porous nature of the film, it is determined at T₁ whether the beverage container at the first section indicates that the beverage is contaminated with a drug in step 520b. If yes, the procedure moves to step 530b where the beverage container indicates that the beverage is not safe to drink. Any type of indication or alert is contemplated where the user is made aware of the outcome of the test. For example, the indication may be visual (e.g., a color change in the test material). However, any suitable indication technique may be used. The procedure then ends at step 540b.

However, if at step 520b the determination is no, the procedure moves to step 550b where the beverage container at section one indicates that the beverage is safe to drink. Such an indication may be the absence of a visual indicator. For example, if the beverage container is white by default, and if the visual indicator is a color change, then is the beverage container remaining the default color (i.e., white) may be considered an absence of a visual indicator. However, any suitable indication method or technique may also be used. The procedure then moves to step 560b where the user may wait and select/view the next section to check for a visual indication showing whether the beverage is now contaminated at T₂. Notably, as discussed above, the next section of the beverage container may automatically re-test the beverage, or allow the user to remove the film to more immediately expose the beverage to the testing material. The procedure then loops back to step 520b.

In a preferred embodiment, the beverage container is the testing material and vice versa (e.g., replacing a portion of the beverage container with the testing material, directly attaching the testing material to a portion of the beverage container, etc. as illustratively discussed with regard to FIG. 1 and FIG. 3a), as opposed to prior testing devices/kits like the one described in the above mentioned U.S. patent application Ser. No. 11/899,646, titled STRAW HOLDER INTEGRATED WITH A BEVERAGE CONTAINER, where the testing material is part of an entirely separate component, and where the separate component must then be connected to the beverage container. As such, the user illustratively is not required to remember to bring a test kit component or to use the test kit. However, in alternative embodiments, the testing material may also be provided separately from the beverage container (e.g., with or without the wax lining applied to the testing material) to be affixed or bonded to the beverage container at a later time (e.g., using an adhesive or other suitable material). For example, one side of the testing material may comprise the adhesive, while the other side may comprise the wax lining. In the embodiment, it may be advantageous to have the adhesive be resistant to liquid so as to prevent the beverage from circumventing the wax film to the testing material. Providing the testing material separately may be useful, inter alia, for example, where the beverage container (e.g., beer glass, porcelain coffee mug, etc.) is not conventionally disposable as is, e.g., a paper cup. For instance, a public bar using their own glasses to serve alcohol may benefit from an embodiment where the separate replaceable testing material lines the glasses instead of requiring the bar owner to acquire the disposable beverage containers, where the testing material is “built-into” the beverage container. That is, a used testing material in the non-disposable beverage containers may be replaced with a new testing material.

Advantageously, by using the beverage container itself as the testing material, the user is provided with a (near) effortless and continuous monitoring of the beverage within the beverage container without such illustrative burdens required by the prior art, such as, inter alia, remembering to bring a testing kit (disguised or otherwise) with a sufficient number of testing strips, remembering to test the beverage, and remembering to re-test the beverage at different times. As another advantage, even if the user cannot distinguish between the effect of the alcohol and the effect of ingesting a contaminated beverage, other onlookers may still notice the reaction of the beverage container/testing material and provide a warning to the user. Additionally, the testing material of the beverage container (e.g., any unused portions) may also be used to test other beverages of different users, such as an acquaintance that may not be in possession of the disclosed beverage container or a testing kit.

While there have been shown and described illustrative embodiments using a beverage container, it is to be understood that various other adaptations and modifications may be made within the spirit and scope of the present invention. For example, the embodiments have been shown and described herein where the wax film protecting the testing material prevents the beverage contained within the beverage container from immediately contacting and reacting with the testing material lined with the beverage container. However, the embodiments of the invention in their broader sense are not so limited, and may, in fact, be advantageously used to line, e.g., a beverage stirrer or a beverage straw. For example, the straw may be lined with the testing material and the wax. This would allow the straw to function as both a conventional straw and as the testing material to attain some or all of above advantages.

The foregoing description has been directed to specific embodiments of this disclosure. It will be apparent, however, that other variations, substitutions, combination, and modifications may be made to the described embodiments, with the attainment of some or all of their advantages. For instance, it is expressly contemplated that the components and/or elements described herein may vary without departing from the true spirit and scope of the invention. For example, while specific types of drug testing materials have been discussed, any drug testing method, device or material suitable for use in the disclosure is contemplated. Additionally, while only a few drugs have been described for detection, it is contemplated that other drugs and substances, such as caffeine or alcohol, may also be detected using an appropriate testing material. Additionally, different film material other than wax that is suitable for use in the disclosure is contemplated. Additionally, different locations of the testing material are also contemplated. For example, the entire beverage container (or at least a portion thereof) exclusively may be the testing material shaped as a beverage container. Accordingly this description is to be taken only by way of example and not to otherwise limit the scope of the invention. Therefore, it is the object of the appended claims to cover all such variations and modifications as come within the true spirit and scope of the invention.

Claims

1. A beverage container configured to hold a beverage, comprising:

a base of the beverage container;

an upper portion of the beverage container;

a sidewall extending from the base to the upper portion, the sidewall comprising an inner surface and an outer surface; and

a testing material configured to visibly react when the testing material is contacted with a chemical in the beverage, wherein a portion of the beverage container is the testing material.

2. The beverage container of claim 1 wherein the testing material is coated with a film.

3. The beverage container of claim 2 wherein the film comprises wax.

4. The beverage container of claim 2 wherein the film comprises a biopolymer.

5. The beverage container of claim 4 wherein the biopolymer comprises zein.

6. The beverage container of claim 2 wherein a portion of the film is semi permeable to allow the beverage in the beverage container to pass through the film to the testing material, wherein the beverage comprises the chemical.

7. The beverage container of claim 1 wherein the portion of the beverage container that is the testing material comprises the inner surface of the sidewall.

8. The beverage container of claim 2 wherein the film is configured to allow the chemical in the beverage to pass through the film to the testing material at a first section of the beverage container within a first predetermined time period, and further configured to allow the chemical in the beverage to pass through the film at a second section of the beverage container within a second predetermined time period.

9. The beverage container of claim 8 wherein the second section comprises a thicker coating of the film than the first section, whereby the thicker coating results in the second predetermined time period being after the first predetermined time period.

10. The beverage container of claim 8 wherein the second section comprises a different film coating the second section which is less permeable than the film coating the first section, whereby the different film results in the second predetermined time period being after the first predetermined time period.

11. The beverage container of claim 1 wherein the portion of the beverage container is the testing material comprises an adhesive to affix the testing material to the portion of the beverage container.

12. A beverage container configured to hold a beverage, comprising:

a lower portion of the beverage container;

an upper portion of the beverage container;

a sidewall extending from the lower portion to the upper portion, the sidewall comprising an inner surface and an outer surface;

a testing material that is a portion of the beverage container configured to visibly react when the portion of the beverage container is contacted with a chemical in the beverage; and

a semi porous film coupled to the testing material configured to pass the chemical in the beverage through the film to the testing material to test for the chemical.

13. The beverage container of claim 12 wherein the film comprises wax.

14. The beverage container of claim 12 wherein the film comprises a biopolymer.

15. The beverage container of claim 14 wherein the biopolymer comprises zein.

16. The beverage container of claim 12 wherein the portion of the beverage container comprises the inner surface of the sidewall.

17. The beverage container of claim 12 wherein the film is further configured to allow the chemical in the beverage to pass through the film to the testing material at a first section of the beverage container after a first predetermined time period, and further configured to allow the chemical in the beverage to pass through the film at a second section of the beverage container after a second predetermined time period, the second predetermined time period after the first predetermined time period.

18. The beverage container of claim 12 wherein the film is further configured to be readily removable from the testing material to expose the beverage in the beverage container to the testing material.

19. A beverage container, comprising:

means for holding a beverage in the beverage container;

means for testing that a chemical is present in the beverage held by the beverage container;

means for securing the testing means directly to a section of the beverage container;

means for passing the chemical in the beverage to the section of the beverage container, whereby the chemical contacts the testing means; and

means for alerting at the section of the beverage container that the chemical is present in the beverage after the chemical contacts the testing means.

20. The beverage container of claim 19 wherein the means for passing is automatic.