Abstract: A child resistant container includes a first component having a first coupling mechanism, and a second component having a second coupling mechanism slidably coupled to the first coupling mechanism. The container is configured to move between a FIRST position and a SECOND position. When the container is in the FIRST position, the first and second components form a compartment configured to contain at least one product. When the container moves from the FIRST position toward the SECOND position, the first component slides relative to the second component, thereby providing an opening into the compartment.

Abstract: Methods are provided for storing and preserving zucchini spirals, preferably so as to extend shelf life of the same. In one optional method, zucchini spirals are placed in a product containing space of a storage container atop a platform of a support structure. The storage container includes an internal compartment having the product containing space. The support structure defines the platform for supporting the zucchini spirals. The internal compartment further includes a reservoir, configured to retain liquid, below the platform. The platform and/or support structure are configured to direct liquid exuded from the zucchini spirals to the reservoir. Optionally, the reservoir comprises an absorbent material for absorbing liquid in the reservoir.

Abstract: Apparatuses and methods are provided for storing and preserving product, such as to extend shelf life of the same. In one optional method, liquid-exuding product is placed in a product containing space of a container atop a platform of a support structure. The container can include an internal compartment having the product containing space. The structure can define the platform for supporting the product. The internal compartment can further include a reservoir, configured to retain liquid, below the platform. At least one of the platform or the support structure can be configured to direct liquid exuded from the product to the reservoir. Optionally, the reservoir comprises or contains an absorbent material for absorbing liquid in the reservoir.

Abstract: A system, apparatus and method for a tightly sealed, low moisture vapor transmission, low relative humidity headspace atmosphere aseptic vaccine delivery with low particulate generation. The system can include a housing, desiccant and a biasing member designed to quickly and efficiently deliver medicament to a patient.

Abstract: A method of over-molding materials includes: providing a first material in a groove in a first portion of a mold such that only a single surface of the first material is exposed to a vacant portion of the mold; providing, via an injection molding process, a second material in a liquid form in the vacant portion of the mold adjacent to, and in engagement with, the first material; and allowing the second material to solidify and become directly coupled to the first material, thus forming a single component. During the method, the entire single surface of the first material is flush with a plane defined by outer surface of the first portion of the mold. The second material has one or both of a greater hardness when solidified than the first material and/or a higher melting temperature than the first material.

Abstract: A child resistant container is for containing at least one product, such as medicine. The child resistant container includes a body, a lid, and a directing portion. The body has an end portion defining an opening leading to an interior of the body. The lid is connected to the body via a hinge, and includes a cover portion and a protrusion extending outwardly therefrom. The cover portion is configured to move between a FIRST position corresponding to the cover portion covering the opening, and a SECOND position corresponding to the cover portion not covering the opening. The directing portion extends from one of the body and the cover portion, and at least partially encloses the protrusion when the cover portion is in the FIRST position. When the cover portion moves from the FIRST position to the SECOND position, the protrusion moves away from the directing portion.

Abstract: Containers with closures are disclosed. A closure may include at least a polymer orifice reducer configured to be permanently secured to a rim of an opening of a container and a flexible tamper evident seal disposed on the topside of the orifice reducer. The flexible tamper evident seal, optionally foil, covers one or more openings in the orifice reducer. Processes for permanently securing a closure to a container, optionally by forming a heat seal between the orifice reducer and container rim, are also disclosed.

Abstract: Disclosed are an entrained polymer or an entrained polymer composition, and a method for forming and adhering an entrained polymer structure to a substrate using the entrained polymer or an entrained polymer composition. The method includes providing a substrate configured to receive application of a molten entrained polymer. A particulate entrained polymer in molten form is applied in a predetermined shape, to a surface of the substrate, to form a solidified entrained polymer structure on the substrate. The entrained polymer includes a monolithic material formed of at least a base polymer and a particulate active agent. The surface of the substrate is compatible with the molten entrained polymer so as to thermally bond with it. In this way, the entrained polymer bonds to the substrate and solidifies upon sufficient cooling of the entrained polymer.

Abstract: Containers and methods for making and using the same are disclosed. The containers include internal fluoropolymer surfaces, optionally comprising fluorinated ethylene propylene (FEP), within the storage compartments. Such fluoropolymer surfaces may be incorporated into the containers via in-mold labeling, for example. Optionally, the containers are useful for storing cannabis extracts that are typically sticky. Low surface energy of the robust fluoropolymer surfaces in such containers help to prevent adherence of the sticky products to the container surfaces.

Abstract: Container apparatus embodiments for providing preferably child resistant and senior friendly closures are provided. Generally, the embodiments include containers, each having an internal product space configured for housing at least one product. Generally, the container apparatus embodiments are each configured to move between a CLOSED position and an OPENED position. Various mechanisms according to the disclosed concepts are described to help prevent a person who should not be accessing contents of the container apparatus from doing so.

Abstract: Methods are provided for storing and preserving comestible finfish material, preferably so as to extend shelf life of the same. In one optional method, comestible finfish material is placed in a product containing space of a storage container atop a platform of a support structure. The storage container includes an internal compartment having the product containing space. The support structure defines the platform for supporting the comestible finfish material. The internal compartment further includes a reservoir, configured to retain liquid, below the platform. The platform and/or support structure are configured to direct liquid exuded from the comestible finfish material to the reservoir. Optionally, the reservoir comprises an absorbent material for absorbing liquid in the reservoir.

Abstract: A method for storing and preserving moisture sensitive products includes providing a moisture tight container (400) having an insert (300) made from a desiccant entrained polymer that is less than 3.25 g in mass, disposing a plurality of moisture sensitive products into the interior compartment when the container is in the open position, and moving the container into the closed position, thereby creating a moisture tight seal between the lid (420) and the container body (401). The container provides a shelf life to the moisture sensitive products of at least 12 months. The container, when in the closed position, has a moisture vapor transmission rate, at ambient conditions of 30° C. and 75% relative humidity (RH), of less than 500|ig/day.

Abstract: A container (20) includes a body (22) defining an interior and an opening (32) that leads to the interior. A cap (24) is removably affixed over the opening and is movable between a closed position and an opened position. The cap includes a front tab (52) having an undersurface (54). A child resistant closure in the form of a guard (56) having a depressible wall (58) is located on the body and is movable between an engaged position and a disengaged position. When in the engaged position the guard covers the undersurface of the front tab to prevent the cap from being moved to the opened position. When in the disengaged position the undersurface of the front tab is exposed, enabling the cap to be moved to the opened position.

Abstract: A moisture tight container (100, 300) includes a container body (101, 301) and a lid (101, 120, 320) preferably linked to the body (101, 301) by a hinge (140, 340). The body (101, 301) and lid (101, 120, 320) include at least a first seal (462) and a second seal (464) in series to provide a moisture tight seal (460) between the body (101, 301) and the lid (101, 120, 320). The first seal (462) includes mating of thermoplastic-to-thermoplastic sealing surfaces of the body (101, 301) and lid (101, 120, 320) respectively. The second seal (464) includes mating of thermoplastic-to-elastomeric sealing surfaces of the body (101, 301) and lid (101, 120, 320), respectively, or of the lid (101, 120, 320) and body (101, 301), respectively.

Abstract: Methods are provided for storing and preserving comestible mollusk material, preferably so as to extend shelf life of the same. In one optional method, comestible mollusk material is placed in a product containing space of a storage container atop a platform of a support structure. The storage container includes an internal compartment having the product containing space. The support structure defines the platform for supporting the comestible mollusk material. The internal compartment further includes a reservoir, configured to retain liquid, below the platform. The platform and/or support structure are configured to direct liquid exuded from the comestible mollusk material to the reservoir. Optionally, the reservoir comprises an absorbent material for absorbing liquid in the reservoir.

Abstract: Containers with closures are disclosed. A closure may include at least a polymer orifice reducer configured to be permanently secured to a rim of an opening of a container and a flexible tamper evident seal disposed on the topside of the orifice reducer. The flexible tamper evident seal, optionally foil, covers one or more openings in the orifice reducer. Processes for permanently securing a closure to a container, optionally by forming a heat seal between the orifice reducer and container rim, are also disclosed.

Abstract: A moisture tight container (100, 300) includes a container body (101, 301) and a lid (101, 120, 320) preferably linked to the body (101, 301) by a hinge (140, 340). The body (101, 301) and lid (101, 120, 320) include at least a first seal (462) and a second seal (464) in series to provide a moisture tight seal (460) between the body (101, 301) and the lid (101, 120, 320). The first seal (462) includes mating of thermoplastic-to-thermoplastic sealing surfaces of the body (101, 301) and lid (101, 120, 320) respectively. The second seal (464) includes mating of thermoplastic-to-elastomeric sealing surfaces of the body (101, 301) and lid (101, 120, 320), respectively, or of the lid (101, 120, 320) and body (101, 301), respectively.

Abstract: A method of over-molding materials includes: providing a first material in a groove in a first portion of a mold such that only a single surface of the first material is exposed to a vacant portion of the mold; providing, via an injection molding process, a second material in a liquid form in the vacant portion of the mold adjacent to, and in engagement with, the first material; and allowing the second material to solidify and become directly coupled to the first material, thus forming a single component. The second material has one or both of a greater hardness when solidified than the first material and/or a higher melting temperature than the first material.