The spout-equipped container includes a container and a spout. The spout includes a spout main body, an opening body accommodated in a cylinder of the spout main body, an activating body which moves the opening body, and a hermetically-sealing sheet which covers an inner opening which fronts an accommodating unit in the spout main body. The opening body is formed so as not to be get out of the spout main body, is formed so as to move toward the hermetically-sealing sheet, and has its center where a spout through hole is formed. The hermetically-sealing sheet is formed so as to be partially torn by the opening body to make the accommodating unit of the container and an outer opening of the spout main body communicate with outside via the spout through hole of the opening body, and is formed so that an accommodated substance is poured outside.

A chemical dispensing system can include a docking stating that receives a reservoir containing chemical to be dispensed. The reservoir may have one or more retention tabs which are movable from a first position in which each tab extends radially across at least a portion of the bore to a second position in which each tab is offset relative to the bore. A user can engage the reservoir with the docking station, causing the one or more retention tabs on the reservoir to engage with one or more corresponding retention tab receiving regions. This can cause each retention tab to move from the first position to the second position, thereby dispensing chemical from the bore through a discharge aperture of the docking station. In this way, the contents of the reservoir may be dispensed without the user coming into physical content with the chemical in the reservoir.

A chemical dispensing system can include a docking stating that receives a reservoir containing chemical to be dispensed. The reservoir may have one or more retention tabs which are movable from a first position in which each tab extends radially across at least a portion of the bore to a second position in which each tab is offset relative to the bore. A user can engage the reservoir with the docking station, causing the one or more retention tabs on the reservoir to engage with one or more corresponding retention tab receiving regions. This can cause each retention tab to move from the first position to the second position, thereby dispensing chemical from the bore through a discharge aperture of the docking station. In this way, the contents of the reservoir may be dispensed without the user coming into physical content with the chemical in the reservoir.

In an embodiment, a portion control container can have a body and a lid sealed to the body. The lid can have defined therein a spout-type opening. The spout-type opening can be defined by an initiation region having 100% cut-through the lid that transitions to a pattern of reduced strength having less than 100% penetration through the lid. The container can remain sealed until the lid is separate from the container along the seal to provide a dip-type opening or the lid material is torn at the initiation region and pattern of reduced strength to define a spout-type opening for squeeze dispensing of the product from the container.

In an embodiment, a portion control container can have a body and a lid sealed to the body. The lid can have defined therein a spout-type opening. The spout-type opening can be defined by an initiation region having 100% cut-through the lid that transitions to a pattern of reduced strength having less than 100% penetration through the lid. The container can remain sealed until the lid is separate from the container along the seal to provide a dip-type opening or the lid material is torn at the initiation region and pattern of reduced strength to define a spout-type opening for squeeze dispensing of the product from the container.

A valve (100, 200, 300) includes a material with a first side surface (114, 214), a second side surface (116, 216), defining between them a thickness of the material. The material includes at least two self-sealing slits (126, 130, 226, 230) extending through the thickness and includes at least one frangible portion (150, 250) extending laterally between the at least two slits (126, 130, 226, 230) for at least part of said thickness of the material. The material includes confronting, openable portions along the at least two slits (126, 130, 226, 230) to define a normally closed orifice to minimize communication through the valve (100, 200, 300). The openable portions are constrained by the at least one frangible portion (150, 250) from moving away from each other into an open condition.

A capsule (6) for use with an electronic smoking device (1) is provided where liquid for atomisation by an electric atomiser is contained within a cavity enclosed by an end wall (50); a lateral wall (50); and a puncturable membrane (34). One or more grooves (54) are provided on the inner face (52) of the lateral wall (50) adjacent the cavity. When the puncturable membrane (34) is punctured the one or more grooves (54) act to provide air channels adjacent the lateral wall (50) facilitating air to pass into the cavity as the liquid leaves the cavity via the puncture in the puncturable membrane (34).

A capsule (6) for use with an electronic smoking device (1) is provided where liquid for atomisation by an electric atomiser is contained within a cavity enclosed by an end wall (50); a lateral wall (50); and a puncturable membrane (34). One or more grooves (54) are provided on the inner face (52) of the lateral wall (50) adjacent the cavity. When the puncturable membrane (34) is punctured the one or more grooves (54) act to provide air channels adjacent the lateral wall (50) facilitating air to pass into the cavity as the liquid leaves the cavity via the puncture in the puncturable membrane (34).

The present invention relates to a tube closure assembly. The assembly includes a tube head that includes a neck and a closure liner sealing said neck, and a cap that includes a punch provided with at least one tooth. The one or more teeth are configured to peripherally cut said closure liner. The cap is configured to transition from an open flush position, in which the one or more teeth are flush with said closure liner, to a perforation position, in which the one or more teeth perforate the closure liner, then from the perforation position to an end-of-travel position allowing partial cutting of the closure liner, the transition from the perforation position to the end-of-travel position being carried out with an angular rotational range below 360.

The present invention relates to a tube closure assembly. The assembly includes a tube head that includes a neck and a closure liner sealing said neck, and a cap that includes a punch provided with at least one tooth. The one or more teeth are configured to peripherally cut said closure liner. The cap is configured to transition from an open flush position, in which the one or more teeth are flush with said closure liner, to a perforation position, in which the one or more teeth perforate the closure liner, then from the perforation position to an end-of-travel position allowing partial cutting of the closure liner, the transition from the perforation position to the end-of-travel position being carried out with an angular rotational range below 360.