An expandable bowl has an open top and a plurality of configuration changing side members connecting the open top to a base member. The configuration changing side members are designed to allow a user to pull the base member to changing the side members from a collapsed configuration to an expanded configuration, thereby increasing the overall volume of the bowl. The expandable bowl may be useful for various products, such as pre-packaged salads, where the salads may be packaged and displayed in the collapsed configuration, thereby minimizing shelf space, and may be changed to the expanded configuration by a user to permit tossing of the salad without risking spillage of the contents of the bowl.

A lid for an opening device for a container includes a body having a longitudinal axis and provided with a top wall and with a side wall internally provided with a thread element suitable for cooperating with a further thread element of a spout of the opening device, the lid further including at least one driving element arranged to receive the fingers of a user during unscrewing of the lid from the spout and during screwing of the lid on the spout, the at least one driving element being delimited by an upper wall and by a lower wall extending from the side wall and spaced apart from each other along the longitudinal axis, the lower wall diverging from the upper wall when moving away from the side wall.

A closure includes a top panel and a corner section connecting an outer periphery of the top panel with a downwardly extending annular skirt. A plurality of gently curved ridges are spaced about the outer perimeter of the closure. The ridges generally extend from a lower portion of the skirt and around the corner section, with the upper ends of the ridges terminating proximate the top panel outer periphery. A plurality of knurls extend radially outwards from the midpoints of the ridges along the skirt of the closure. The configuration, arrangement, and spacing of the ridges and knurls about the closure provide an enhanced grip and feel, allowing for easier twist-off of the closure from a container. The closure may be used interchangeably with existing capping chucks used to apply conventional closures without requiring any modification to the capping chucks to apply the closures to containers during a capping process.

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

A bottle cap capable of connection to another bottle cap stacked in an axial direction, and which can be detachably attached to a bottle mouth of a bottle, includes a top plate that covers an opening of the bottle mouth, a side wall of a hollow cylinder that vertically extends from a rim of the top plate and is screwed to the bottle mouth, an inner cylinder of a hollow cylinder that vertically extends in a space surrounded by the side wall from an inner surface of the top plate and forms an annular space with the side wall, and a plurality of cylindrical projections that project from an outer surface of the top plate and have a diameter having a same dimension as a width of the circular space in a radial direction. A projection position of the projections overlaps a set position of the annular space.

A closure device includes a stopper assembly that provides swing-top closure of a vessel, plus an adaptor so the device can be used with screw-top vessels. The stopper assembly is connected to the adaptor by two connected wires: a bail wire that connects to the stopper assembly, and a lever wire that connects to the adaptor. The inner circumference of the adaptor defines a plurality of vessel threads that engage with the threads defined by the neck of a screw-top vessel. The lever wire is readily removable from the adaptor in order to secure the protruding portions of the lever wire beneath the stop ring of the vessel.

Arrangements are provided for smart functionality with dumb containers, such as for determining medication adherence, tracking product use, and validating product authenticity. An acoustic emitter is engaged with a container or other vehicle. Opening the container causes the acoustic emitter to produce an acoustic emission, without requiring power, processing capacity, or sensors. A cell phone or other station receives and registers acoustic emissions, such as by logging opening of the container, verifying authenticity of the acoustic emission, communicating with an oversight system, or similar. Data as may be encoded in an acoustic emission may include vehicle detection data (e.g., logging a container being opened), vehicle information (e.g., lot number, contents name), vehicle validation (e.g., valid or counterfeit numerical code), and audible user recognition (e.g., brand jingles, warning sounds).

A new design for a child resistant cap which features a flip open top which opens to reveal a viewing mechanism, which allows magnified viewing of the contents of a container upon which the cap is installed, is presented. The cap allows the content's of a container to be viewed without the necessity of removing the cap from the container. The cap of the present invention includes an outer cap and an inner cap. The outer cap includes a lens concentrically aligned with a viewing window in the inner cap. The outer cap is also equipped with a flip top lid which is operable to cover and uncover the lens and viewing window. The outer and inner caps are equipped with features that make the closure difficult for a child to open.

A materials containment canister comprising an optional lower cap with an upper thread, a body with multiple interior chambers and an upper cap with a lid, optional handle and orifice. The upper cap is capable of rotating to allow for the orifice to access individual chambers which can store materials.