CAP ASSEMBLY FOR REUSABLE MEDICINE CONTAINER, AND USES THEREOF

Provided herein are container systems for the storage of refillable pharmaceutical products. The container systems include a cap assembly configured to hold a magnetic token in place on the exterior surface. The cap assembly and container systems include design features for child resistance, case of storage, and case of refilling or dispensing contents in the systems. Also provided are refillable pharmaceutical products storage kits that include the container system and a refill pouch.

FIELD

The present disclosure relates generally to packaging materials, and more specifically to a cap assembly for a container for storing refillable pharmaceutical products (e.g., medicine pills, tablets, etc.).

BACKGROUND

Currently, distribution of over-the-counter medicines typically generates large amounts of waste due to the high incidence of single use and short-term usage packaging materials. For example, packaging materials for medicine containers and pill packs are typically made from plastics, cardboards and foils, which are generally discarded once their contents have been consumed. Therefore, short-term usage products in pharmaceutical packaging presents large-scale waste management considerations. Container systems that typically house over-the-counter medicines can also vary widely in physical dimensions, such as size and shape. Such variability means that traditional pharmaceutical packaging systems may also present a challenge in the organization and storage of household pharmaceutical supplies.

What is therefore desirable in this art is to provide reusable medicine packaging with specific design features that facilitate organization and storage of pharmaceutical products, as well as tracking of information relating to the refillable pharmaceutical products contained in reusable containers.

BRIEF SUMMARY

In some aspects, provided is a cap assembly, comprising: a top, wherein the top has an exterior surface and an interior surface, wherein the exterior surface of the top is configured to receive a magnetic token; a side connected to and extending from the top; a gasket connected to the interior surface of the top; and a magnet positioned between the gasket and interior surface of the top, wherein the magnet is configured to hold the magnetic token in place on the exterior surface of the top.

In other aspects, provided is a container system, comprising: a container; and any of the cap assemblies described herein. In some embodiments, the container comprises: a body; and a neck extending from the body of the container and forming the mouth of the container, wherein the neck has an exterior surface and an interior surface. In some embodiments, the cap assembly comprises: a top, wherein the top has an exterior surface and an interior surface; a side connected to and extending from the top, wherein the side comprises an inner wall and an outer wall, wherein the inner wall is cylindrical and configured to engage with the neck of the container; a gasket connected to the interior surface of the top; and a magnet positioned between the gasket and interior surface of the top.

In yet other aspects, provided is refillable pharmaceutical products storage kit, comprising: any of the container systems described herein, and a refill pouch. In some embodiments, the refill pouch comprises: a first compartment configured to hold pharmaceutical products; and a second compartment configured to hold the magnetic token, wherein the magnetic token in the second compartment does not come into contact with the pharmaceutical products in the first compartment.

DETAILED DESCRIPTION

The following description sets forth exemplary systems, methods, parameters and the like. It should be recognized, however, that such description is not intended as a limitation on the scope of the present disclosure but is instead provided as a description of exemplary embodiments.

In some aspects, provided herein are container systems suitable for storing pharmaceutical products, including over-the-counter medicines. The container systems are sustainably designed, and can replace wasteful, plastic pill containers with reusable containers. The reusable containers can be used to store pharmaceutical products obtained from refill pouches. Thus, in certain aspects, provided herein are also refillable pharmaceutical products storage kits that include the container system, and refill pouches. In some embodiments, the refill pouches are compostable, and also contain information about the pharmaceutical product therein that can be easily transferred to the container system, which helps to replace the traditional drug fact label on most products.

The container systems provided herein include a cap assembly that is designed for use with a container, such as a glass bottle or jar, configured to hold pharmaceutical products. In some embodiments, the cap assembly is designed to receive a magnetic token that is provided with the refill pouches, in order to transfer drug product information to the reusable container.

The cap assembly, the container systems, and the refillable pharmaceutical products storage kits, and methods of using the foregoing, are described in further detail below.

Container System

In some aspects, provided is a container system that includes a cap assembly and a container. When the cap assembly is secured onto the container, the container system is in a closed position. The container is configured to hold any suitable products, such as pharmaceutical products. The container is designed to be reusable. For example, the user may refill the container with additional products, such as pharmaceutical products, that may be obtained from refill pouches. The cap assembly is configured to create a sealed container in the closed position, and may include additional features, such as a child resistant lock.

In some embodiments, the cap assembly includes a top that has an exterior surface and an interior surface. The exterior surface of the top is configured to receive a magnetic token. For example, in some embodiments, the exterior surface of the top has a recess on which to mount the magnetic token.

The cap assembly also includes a gasket connected to the interior surface of the top, and a magnet positioned between the gasket and interior surface of the top. The magnet is configured to hold the magnetic token in place on the exterior surface of the top. The gasket helps to provide an upward force on the cap assembly when secured onto the container and the container system is in a closed position. When the container system is in such closed position, the gasket also serves to provide a seal around the mouth of the container to prevent contents from entering/exiting the container. Finally, the gasket also helps to keep the magnet secured in the cap assembly by providing an upward force on the magnet.

The cap assembly also has a side connected to and extending from the top. The side has an exterior surface and an interior surface. In some embodiments, when the cap assembly is secured onto the container and the container system is in a closed position, the side is configured to surround the neck of the container, and the outer surface of the side aligns with the sides of the container to form a flat and continuous surface.

In some embodiments, the side of the cap assembly further includes at least one bayonet configured to hold the gasket in place. In some variations, the cap assembly includes one, two, three or four bayonets configured to hold the gasket in place. In some embodiments the cap assembly includes four bayonets spaced evenly around the cap assembly, configured to hold the gasket in place. The gasket is held in place by the upward pressure exerted by the top of the bayonet, and the downward pressure from the magnet.

In other embodiments, the side of the cap assembly further includes at least one bayonet that can lock into a receiving bayonet element positioned on the neck of the container. For example, the cap assembly is configured such that the user has to turn the cap assembly relative to the container in order to lock the bayonet into the receiving bayonet element. The gasket is configured to provide a counterforce for locking the cap assembly into the receiving bayonet element. In some embodiments, locking the bayonet into the receiving element engages a child resistant mechanism. In some embodiments, when the container system is in a closed position, at least two motions are required to disengage the child resistant mechanism and to open the container. When the container system is in a closed position, the user has to first push down on the cap assembly and then turn in order to clear the bayonet, to open the container system. In some embodiments, the gasket provides a counterforce to clear the bayonet, to open the container system.

With reference toFIG.1, exemplary container system1000is depicted. Container system1000includes cap assembly1100and container1200. Cap assembly1100includes top1120, side1140, magnet1160, and gasket1180. Top1120has exterior surface1122and interior surface1124. Top1120is configured to receive a magnetic token (not depicted in the figure) on exterior surface1122. The magnetic token positioned on exterior surface1122of top1120is held in place by magnet1160, positioned on interior surface1124of top1120. Magnet1160is held in place by gasket1180.

When cap assembly1100is secured onto container1200, container system1000is in a closed position, as depicted inFIG.2A.

The parts of the cap assembly can be described in further detail with reference again toFIG.1. Gasket1180has upper surface1182and lower surface1184. Gasket1180includes upper rim1186extending from upper surface1182that is configured to hold magnet1160in place. Gasket1180further includes lower rim1188extending from lower surface1184. As shown inFIG.2A, side1140and lower rim1188of gasket1180are configured to engage with neck1202of container1200when cap assembly1100is secured onto container1200.

Side1140may further include one or more bayonets positioned on inner wall1142. For example, with reference toFIGS.1,2B and2C, cap assembly1100at least bayonets1150and1152. Bayonets1150and1152provide a resting surface for gasket1180, and are positioned to hold gasket1180in place. As discussed above, gasket1180is held in place by the upward pressure exerted by the top of =bayonets1150and1152, and the downward pressure from magnet1160. Bayonets1150and1152have corresponding receiving bayonet elements positioned on exterior surface1212of neck1210. A part of a receiving bayonet element can be seen in element1230inFIG.1. When cap assembly1100is secured onto container1200, bayonet1152on cap assembly1100locks into its corresponding receiving bayonet element1230on container1200, thereby locking container system1000closed. When container system1000is closed, the user has to first push down on cap assembly1100and then turn in order to clear the bayonet, to open container system1000.

It should be understood while an exemplary embodiment of the container system is depicted in the aforementioned figures, other embodiments of the container system are envisioned. In some variations, the container systems provided herein are designed to be stackable, when user employs multiple container systems for different products, such as pharmaceutical products. In certain variations, the container systems can be color-coded, e.g., by varying the color of the cap assembly, for storage of different products.

In some embodiments, the cap assembly and container may have different shapes and sizes. For example, in certain variations, the height of the cap assembly may match the height of the container. In other variations, the height of the cap assembly may be half the size of the height of the container. In some variations, the cap assembly and container may have a rounded square edge. Such shape may help to support stackability and organization in at home medicine cabinets.

The cap assembly can be made from any suitable materials. In some embodiments, the cap assembly is plastic. In some variations, the cap assembly is made from food safe materials, such as acrylonitrile butadiene styrene (ABS) or polylactic acid (PLA). In some embodiments, the cap assembly is made from a PLA/cellulose blend plastic. In some embodiments, the gasket of the cap assembly is made from a food safe material such as high-density polyethylene (HDPE).

The container may also be made from any suitable materials. For example, in some embodiments, the container is made from glass. In certain variations, the container is made from cosmetic grade, food safe glass wherein glass is specifically chosen for recyclability and elevated aesthetic. In some embodiments, the container is a sandblast painted or frosted glass bottle or jar. In some variations, the container is shatter and/or drop-resistant.

The container systems provided herein may have one or more additional features. For example, with reference toFIG.3, the bottom side of exemplary container1200is depicted. Container1200has feet1240. When two such containers are stacked on top of each other, feet1240help container1200to nest onto of the cap assembly of a second container (not depicted in the figure). Indentation1242at the bottom of container1200also helps the bottom to nest with the cap assembly of a second container. For example, such a design feature provides over a 45 degree level of angular lean. In other embodiments, the interior design of the container includes specific angular design features which can help to prevent products in the container from getting stuck at the corners and sides of the container.

Magnetic Token

The container systems described herein are designed to receive a magnetic token that contains information about the contents stored in the reusable container. In some variations, the magnetic token is provided in the refill pouch, whose contents (e.g., pharmaceutical products) are stored in the reusable container.

With reference toFIGS.4A and4B, exemplary container system1000is configured to receive magnetic token4002. Magnetic token4002fits into recess1126, positioned on exterior surface1122of cap assembly1100.

In certain embodiments, the container systems may have one or more additional features to allow release of the magnetic token from the recess positioned on the exterior surface of the cap assembly. In some embodiments, the recess positioned on the exterior surface of the cap assembly further comprises an indentation in one corner of the recess wherein, the indentation allows a finger of the user to release the magnetic token from the recess. In some variations the indentation is round. In some embodiments, the magnetic token is thick or stiff enough so as to help with the removal of the magnetic token from recess positioned on the exterior surface of the cap assembly.

The token may include any suitable information about the corresponding contents held in the container. For example, with reference toFIG.5, exemplary token5000is depicted. Token5000may include drug facts, prescription information and/or QR code. In some embodiments, the drug facts include the category (e.g. allergy relief, pain and fever, sleep and stress, digestive health, allergy relief, pain relief, sleep aid, gas relief, nasal decongestant), uses (e.g. antihistamine, seasonal allergies, pain relief, fever reducer, inflammation, insomnia, stress, gas, bloating, nasal congestion, sinus pressure, headache), name, side-effects (e.g. drowsy, non-drowsy), strength (e.g. equal, strong, light) and/or dosage of a pharmaceutical product. In some embodiments, the prescription information includes lot information, expiration information, and/or symbols for visualization of drug characteristics. In some embodiments, the QR code can be used for digital integration. As discussed above, the use of such token allows for the replacement of traditional drug product labels found on containers.

Information can be provided on both sides of the token. With reference toFIG.6, token5000has front side5002and back side5004. For example, front side5002may have information related to drug facts, and back side5004may have prescription information and/or QR code.

In some embodiments, the magnetic token is recyclable. The token may be made from any suitable materials, including materials that make the token magnetic. In some embodiments, the magnetic token is a galvanized steel sheet. In some embodiments, the galvanized steel sheet is printed with color and text. In some embodiments, the magnetic token is color coded wherein the color coding allows color categorization of the products (e.g., pharmaceutical products) and integration with a color coded cap assembly.

Refillable Pharmaceutical Products Storage Kit

In other aspects, provided is a refillable pharmaceutical products storage kit that includes any of the container systems described herein, and at least one refill pouch. In some embodiments, the refill pouch includes a first compartment configured to hold suitable products, such as pharmaceutical products, and a second compartment configured to hold the magnetic token The magnetic token in the second compartment does not come into contact with the products in the first compartment.

In some embodiments, a first tear line is positioned along the first compartment, wherein, when a user tears the refill pouch along the first tear line, an opening is formed in the first compartment to access the pharmaceutical products therein; and a second tear line is positioned along the second compartment, wherein, when a user tears the refill pouch along the second tear line, an opening is formed in the second compartment to access the magnetic token therein.

In other embodiments, the first compartment and/or the second compartment are configured to be independently reclosable.

With reference toFIG.6, a refillable pharmaceutical products storage kit comprising container system1000and refill pouch6000is depicted. Refill pouch6000is constructed from two pieces of material, front material6002and back material6004. Front material6002and back material6004are joined by seal6020around their perimeters. A second seal6022extends crosswise, dividing pouch6000into a first compartment6040and a second compartment6042. First compartment6040is configured to hold pharmaceutical products. Second compartment6042is configured to hold a magnetic token, wherein the magnetic token in the second compartment6042does not come into contact with the pharmaceutical products in first compartment6040. First tear line6060is positioned along first compartment6040. Second tear line6062is positioned along second compartment6042.

In some embodiments, the pouch is child resistant. In some embodiments the pouch is stackable. In some embodiments to pouch is metalized. In some embodiments, the pouch has a wide opening on the top to help with the refilling and pouring process.

In some embodiments, the size of the first compartment can accommodate a plurality of pharmaceutical products, such as medicine pills or tablets. In some variations, the second compartment includes a pamphlet with drug facts in addition to the magnetic token. In some embodiments, the size of the second compartment can accommodate the magnetic token and optionally a pamphlet, which do not touch the pills within the pouch.

In some embodiments, the pouch provides information related to pharmaceutical products. In some embodiments, the information includes drug facts. In some embodiments, the drug facts include the category, uses, warnings, directions for use, and/or active and inactive ingredients for the pharmaceutical products therein.

In some embodiments, the pouch is made from bio-based or compostable materials. In some embodiments, the compostable materials meet the American Society for Testing and Materials (ASTM) D6400 standards. In some embodiments, the compostable materials meet stability standards per drug type based on monograph and Abbreviated New Drug Application products.

In some embodiments, the compostable material is multi-layered. In some embodiments, the compostable material comprises at least three layers. In some embodiments, the compostable material has three layers, including a clear coated compostable print film, a compostable adhesive, and a compostable sealant film. In some embodiments, the material is thicker, harder to peel for child resistance and/or feels more robust. In some embodiments, the three layers are a metallized compostable print film, a compostable adhesive, and a compostable sealant film. In some embodiments, the compostable material is thinner, lighter weight, easy to peel and/or feels more sustainable. In some embodiments, the pouch is made from a recyclable material. In some embodiments, the recyclable material comprises ethylene vinyl alcohol film.

In some embodiments, the refillable pharmaceutical products storage kit further includes a refill guide with instructions.