A shipping container, particularly suited for shipping wine bottles within a shipping box, having a pair of container halves. Each container half includes an outer tray that is shaped to fit the shipping box, and an inner tray that is configured for securely holding one or more wine bottles. Both the outer tray and inner tray are made of readily recyclable pulp material, and have a void therebetween. A starch based biodegradable insulation material fills the void therebetween, such that the shipping container is made entirely of biodegradable material, yet is sturdy and has insulative properties.

The invention relates to an article which comprises a bottle of cosmetic product and a pack. The pack includes at least one wall having at least one region in relief suggesting, or even reproducing, a bottle shape so as to immobilize it with respect to the wall. The invention also relates to a pack for a bottle of cosmetic product and a method for removing a bottle of cosmetic product from a case.

The container includes an outer housing with a top wall, a bottom wall, a front wall, a back wall, a first side wall, and a second side wall. The top wall defines an access opening for providing access to the interior of the outer housing. An inner package is disposed within the outer housing, and includes a recessed base and a cover member overlying the recessed base, which together form a sealed enclosure for one or more consumer goods. The inner package is held in a fixed position within the outer housing such that a first portion of the inner package underlies the top wall and a first portion of the cover member underlies and is exposed by the access opening. The first portion of the cover member is separable from the remainder of the inner package to allow removal of consumer goods.

A package includes an outer sleeve (60) and a lockable receptacle (50). The package has a two-part locking mechanism for locking the lockable receptacle within the outer sleeve. The package also has a release mechanism including a moveable tab (76) that may be depressed to cause the two-part locking mechanism to be unlocked as well as to case the lockable receptacle to be at least partially withdrawn from the outer sleeve. The moveable tab is oriented at a non-normal angle relative to a lateral axis (x) of the outer sleeve. The non-normal angle is defined as a first angle () between the lateral axis and a notional axis (C) which runs centrally of the moveable tab through the anchored portion and to a medial point (M) of the front edge.

A microwavable food and package apparatus includes an outer container having an upper panel providing an upper surface, a lower panel providing a lower surface, a plurality of side walls that each extend from the upper panel to the lower panel, and an interior. One of the side walls having a removable portion that enables access to said interior such as when removing the contents/bowl. An inner container of bowl provides a cavity that holds a food item. The outer container lower panel has a having a removable section that can be removed to provide an opening in the upper panel. An annular wall on the inner container is sized and shaped to fit the opening. The outer container or box thus functions as a trivet, wherein a portion of the outer container extends away from the inner container after the inner and outer containers have been subjected to microwave cooking so that said portion of said outer container (e.g. corner) provides a cooler surface that can be gripped by a user without fear of burns.

Embodiments of the present disclosure are directed to a biological tissue packaging system, as well as a transport system, and, in some embodiments, comprises a first package, a secondary package, and a tertiary package. Each of the first, second, and tertiary packages is sterilized prior to packaging of a biological tissue therein. The first package comprises a pouch, and a first tray and a first lid configured for removable snap-fit attachment to one another so as to form a clamshell container. The secondary package is configured to contain the first package and interlock therewith. The tertiary package is configured to contain the secondary package and interlock therewith.

A sensing system for bins includes a bin with at least one light emitting diode operatively mounted to the bin. At least one receiver for detecting IR light from the at least one light emitting diode is also operatively mounted to the bin. A microcontroller is operatively connected to the at least one light emitting diode and the at least one receiver. A wireless transmitter is operatively connected to the microcontroller for relaying information regarding the content status of the bin to an indicator. The at least one light emitting diode, the at least one receiver, the wireless transmitter, and the microcontroller are operatively connected to a power source.

The present disclosure discloses a packing box in the field of outer packing technique in view of problems that the existing thick packing box occupies large space in transporting and storage and cannot be reused after disassembled due to adhering connections. The packing box includes two cover bodies configured to snap one another, each of the cover bodies is formed by a folded plate member, and the plate member includes an internal flexible layer, an external flexible layer and a paperboard layer therebetween, where the cover body includes a bottom plate, and a side plate and a flipping plate both arranged on each of opposite sides of the bottom plate, one side of the side plate is connected to the bottom plate, and the other side of the side plate is connected to the flipping plate, so that the side plate is foldable with respect to a side edge of the bottom plate that is connected with the side plate, and the flipping plate is foldable with respect to a side edge of the side plate that is connected with the flipping plate. A locating structure is arranged between the bottom plate and the side plate, and a free end of the flipping plate is configured to be inserted and fixed to the locating structure. Since adhering connections are avoided in the assembling of the packing box, the production efficiency is increased, and the packing box is easy to disassemble and assemble and may be reused, so that the cover body can be disassembled to save space for transporting and storage.

The package includes a front panel and a back panel, a first side formed by an intermediate panel connected to the front panel and the back panel, and a second side sealed by an adhesive, where the adhesive connects a rear surface of a side panel to a front surface of a side glue panel. An upper end of the package is formed by a front upper panel connected to an upper portion of the front panel, where the upper end is sealed by a front upper tuck panel being tucked into the outer package so that a front surface of the front upper tuck panel contacts an upper portion of the back panel. The upper end is sealed by a front upper tuck panel and a back tuck panel, the back tuck panel being retained in a front upper slit defined by the front upper panel.

A container assembly and method for constructing a container assembly is provided. The container assembly includes a base assembly, a tray assembly, and a cooling passage cover wall. The base assembly includes a base wall and a base sidewall, the base wall and the base sidewall together forming a base interior volume at which the tray assembly is positionable. The tray assembly includes a tray base wall and a tray sidewall, the tray base wall and the tray sidewall together forming a tray interior volume. A cooling passage is formed between the tray sidewall and the base sidewall. The cooling passage cover wall is removably positionable to extend between the tray sidewall and the base sidewall over the cooling passage. An opening extends through the tray sidewall, the opening providing fluid communication between the cooling passage and the tray interior volume.