A heat loss protection lid for a thermal liquid container system, wherein the heat loss protection lid comprises a central body, a liquid ingress opening formed within the central body, a liquid dispensing opening formed within one of a peripheral edge of the central body or a lip formed around the peripheral edge of the central body and a concealed air intake hole.

A one-piece molded food container having a lid, a base and a tamper-evident hinged element connecting the lid and base.

A removable container for powder or liquid includes a housing, a spilling mechanism and a bypass element. The housing hangs within a bottle and is capable of storing powder within the bottle while being sealed from a precursor liquid held within the bottle. The spilling mechanism enables the powder to spill out of the housing and into the precursor liquid and the bypass element provides the precursor liquid out of the bottle without mixing with the stored powder.

A container includes a container body and a lid, which has an outer lid wall portion surrounding a central portion. The outer lid wall portion provides a lid-side sealing surface, which engage with body-side sealing surface, when the lid is applied to the container body to close the container. The container further includes a securing ring inserted within the outer lid wall portion. The securing ring having a lower portion and an upper flange portion extending from the lower portion at an acute angle (α) of less than 80° from vertical.

A lid for a container includes snap-fit hooks for interlocking engagement in complementing latching openings of an outwardly projecting flange of a jacket of the container, and stacking parts disposed on a lower side of the lid close to the periphery for form-fitting engagement in complementing stacking parts on an upper side of a further said lid, when the lids are stacked. The lower side of the lid and the upper side of the further lid have each a central region that forms a contact area via which compressive forces are transmissible in the presence of a contact between the contact areas of the lower side of the lid and the contact area of the upper side of the further lid.

A container with an outer tin (10) and an inner tin (30), and a lid (60), where the inner tin (30) slides up and down within the outer tin (10), and the inner tin (30)s is secured within the outer tin (10) by protrusions and indentions that do not restrict the inner tin (30)'s ability to slide up and down within the outer tin (10), and further including a lid (60) capable of being locked by moving the inner tin (30) down inside the outer tin (10) to a bottom position and capable of being unlocked by releasing the lid (60) from the inner tin (30) by pushing the inner tin (30) up from the bottom position and sliding the lid (60) to an open position.

A container employs an access tool in child-resistant packaging. The container includes a seamless container body having a sidewall and a base formed of a single piece of metal. The container body is drawn to shape from the single piece of sheet metal via deep drawing. The container includes a lid that covers an aperture at an upper end of the container body when the container is closed, and a lever ring attached to the container body adjacent to an upper edge of the sidewall. The lever ring receives and grips a plug portion of the lid to cover the aperture. When not in use, the access tool is magnetically attached to the base, hidden from view. The access tool is a lever configured pry the lid away from the lever ring. The container may include a removably coupled secondary cover to cover the lever ring and lid.

A container cover and assembly provide an extremely low profiled edge to the container cover when the container cover is secured or attached to a complementary container. Using such a low profile results in less of an edge being exposed such that its profile works to prevent inadvertent opening of the hinged lid from the container cover and also prevent removal of the container cover from the container. The container cover comprises two halves that are integrally-molded. The two halves are connected by a common pivot point or hinge that is disposed to one side of each half which allows the halves to be folded over and onto one another. The structure of the container cover and integrally-formed hinged lid can be formed using a one-shot plastic injection molding process. This simplifies and speeds up the production process for manufacturing the container cover and hinged lid combination.

Containers for storing food in a storage compartment may include a base portion of the container. The storage compartment is sealed with a film to get the food stored in the storage compartment fresh. The container further includes a reversible lid that is able to attach to the base portion of the container in two different configurations. In a first configuration the reversible lid attaches to the base portion without affecting the seal created by the film. In a second configuration the reversible lid attaches to the base portion when the lid is inverted and the film is removed from the base portion.

The closure adapted to cover a container aperture defines a retention projection dimensioned to be received in a retention aperture in a wall of the container. An insertion surface on the projection avoids the closure being impeded by an edge of the wall. The projection defines a disengagement surface to remove the projection from the retention aperture and defines a registering surface opposite the registering surface. The closure may be fitted agnostic to the rotational alignment of the closure relative to wall and then twisted relative to the container until resistance is provided by the registering surfaces engaging Automated closure requires only two degrees of movement and only two force sensors.