A method for manufacturing a discharge product includes the steps of: preparing the double pressurized container including an outer container; an inner container stored inside the outer container and having flexibility; and a plug for sealing both of the outer container and the inner container; charging a concentrate inside the inner container; contracting the inner container before or after charging the concentrate; tightly mounting the plug to a mouth of the inner container; charging the pressurizing agent between the outer container and the inner container through a space between a mouth of the outer container and the mouth of the inner container; and tightly closing the space between the mouth of the outer container and the mouth of the inner container by the plug.

A method for manufacturing a discharge product includes the steps of: preparing the double pressurized container including an outer container; an inner container stored inside the outer container and having flexibility; and a plug for sealing both of the outer container and the inner container; charging a concentrate inside the inner container; contracting the inner container before or after charging the concentrate; tightly mounting the plug to a mouth of the inner container; charging the pressurizing agent between the outer container and the inner container through a space between a mouth of the outer container and the mouth of the inner container; and tightly closing the space between the mouth of the outer container and the mouth of the inner container by the plug.

A novel pressure control system provided for maintaining a constant predetermined excess pressure in a fluid dispensing container comprises a high-pressure plastic vessel having an inner chamber and an upper open end, and a pressure control device with a valve, which pressure control device is mounted on the upper open end of the high-pressure vessel, whereas a passageway is provided from the inner chamber to the outside, which is controlled by the valve, wherein the vessel is substantially cylindrical.

The upper part of the vessel has a spherical dome with a cylindrical insert provided for receiving the pressure control device and the lower end of the vessel has an open end, which is closed by a ring-shaped closure.

A novel pressure control system provided for maintaining a constant predetermined excess pressure in a fluid dispensing container comprises a high-pressure plastic vessel having an inner chamber and an upper open end, and a pressure control device with a valve, which pressure control device is mounted on the upper open end of the high-pressure vessel, whereas a passageway is provided from the inner chamber to the outside, which is controlled by the valve, wherein the vessel is substantially cylindrical.

The upper part of the vessel has a spherical dome with a cylindrical insert provided for receiving the pressure control device and the lower end of the vessel has an open end, which is closed by a ring-shaped closure.

Coating compositions comprising a phenolic resin and a film-forming resin having functional groups that are reactive with the functionality of the phenolic resin are disclosed herein. The phenolic resin comprises a phenol group containing compound and a glyoxylic acid containing compound. Such phenolic resins may be used as formaldehyde-free crosslinkers in coating compositions and such coating compositions may be used on substrates comprising a non-porous material, such as metal, glass, and/or plastic. Also disclosed are methods of coating a substrate and coated substrates, including food and/or beverage containers.

Coating compositions comprising a phenolic resin and a film-forming resin having functional groups that are reactive with the functionality of the phenolic resin are disclosed herein. The phenolic resin comprises a phenol group containing compound and a glyoxylic acid containing compound. Such phenolic resins may be used as formaldehyde-free crosslinkers in coating compositions and such coating compositions may be used on substrates comprising a non-porous material, such as metal, glass, and/or plastic. Also disclosed are methods of coating a substrate and coated substrates, including food and/or beverage containers.

The present disclosure discloses and describes a vapocoolant dispenser. Specifically, the dispenser comprises a housing and container of vapocoolant, the dispenser configured to receive a sterilizable dose of high energy radiation and to provide a sterile, hermetically sealed vapocoolant dispenser.

A dispensing system includes a manifold adapted to be fluidly coupled to a valve stem of a container. The manifold includes first and second members extending outwardly from the manifold. The dispensing system also includes a shroud having first and second shroud portions on opposing sides of the shroud. The dispensing system further includes at least one enclosed track. The enclosed track receives and permits sliding of at least one of the first and second members.

The present invention provides a dispensing container comprising a vessel, the vessel having: a formation and/or discrete element in or on the vessel which causes the centre of gravity of contents of the vessel to be positioned differently, when oriented in a lain-on-side attitude, from its notional position, in the absence of the formation or element in or on the vessel; an additional formation or discrete element in or on the vessel which, when the container is in the lain-on-side attitude, lifts at least a portion of the container away from a surface, wherein, when the container is in the lain-on-side attitude and has a first volume of content, the centre of gravity of the content biases the container to a first orientation, and when the container is in the lain-on-side attitude and has a second volume of content, the centre of gravity of the container biases the container to a second orientation, different to the first.

The present invention provides a dispensing container comprising a vessel, the vessel having: a formation and/or discrete element in or on the vessel which causes the centre of gravity of contents of the vessel to be positioned differently, when oriented in a lain-on-side attitude, from its notional position, in the absence of the formation or element in or on the vessel; an additional formation or discrete element in or on the vessel which, when the container is in the lain-on-side attitude, lifts at least a portion of the container away from a surface, wherein, when the container is in the lain-on-side attitude and has a first volume of content, the centre of gravity of the content biases the container to a first orientation, and when the container is in the lain-on-side attitude and has a second volume of content, the centre of gravity of the container biases the container to a second orientation, different to the first.