The present invention relates to a packaging comprising at least one tablet individually wrapped in a polymer film, characterised in that the tablet comprises 5% to 100% of active chlorine releasing agent, and the method for preparing same. The present invention also relates to the use of a polymer film for individually wrapping a tablet intended to be placed in a packaging, characterised in that the tablet comprises 5% to 100% of active chlorine releasing agent.

The present invention relates to a packaging comprising at least one tablet individually wrapped in a polymer film, characterised in that the tablet comprises 5% to 100% of active chlorine releasing agent, and the method for preparing same. The present invention also relates to the use of a polymer film for individually wrapping a tablet intended to be placed in a packaging, characterised in that the tablet comprises 5% to 100% of active chlorine releasing agent.

Disclosed is a type of borosilicate glass, the composition of which, based on oxides, contains the following components by weight percentage (wt %): 2.0 wt %-5.0 wt % of TiO.sub.2, 0.25 wt %-2.5 wt % of CeO.sub.2 and 0.25 wt %-3.0 wt % of Y.sub.2O.sub.3, and does not contain any iron compound, such as ferric oxide. The glass has better UV resistance and alkaline resistance properties, and a better light transmission rate, and is particularly suitable for use in the field of pharmaceutical packaging materials.

Disclosed is a type of borosilicate glass, the composition of which, based on oxides, contains the following components by weight percentage (wt %): 2.0 wt %-5.0 wt % of TiO.sub.2, 0.25 wt %-2.5 wt % of CeO.sub.2 and 0.25 wt %-3.0 wt % of Y.sub.2O.sub.3, and does not contain any iron compound, such as ferric oxide. The glass has better UV resistance and alkaline resistance properties, and a better light transmission rate, and is particularly suitable for use in the field of pharmaceutical packaging materials.

Disclosed is a chemical container capable of discharging gas generated from a chemical by stably securing a discharge passage of the gas even when the posture or tilt of the chemical container is variously changed, i.e. when the chemical container is turned over or falls sideways, whereby it is possible to prevent an excessive increase in internal pressure of the chemical container due to generation of the gas. The chemical container includes a container body having a storage compartment configured to store a chemical, an exhaust port disposed at one side of the container body, the exhaust port being configured to connect the storage compartment and the outside of the container body to each other in such a manner that fluid movement therebetween is possible, an exhaust tube disposed in the storage compartment so as to be connected to the exhaust port in such a manner that fluid movement therebetween is possible, and an exhaust buoyancy unit. The exhaust buoyancy unit has a buoyancy body disposed in the storage compartment in the state of being connected to the exhaust tube so as to float on the chemical stored in the storage compartment, an exhaust channel provided inside the buoyancy body, the exhaust channel being configured to connect the storage compartment and the exhaust tube to each other in such a manner that fluid movement therebetween is possible, and a filter membrane coupled to the buoyancy body, the filter membrane being configured to transmit gas through the exhaust channel and to block the chemical, thereby preventing the chemical from passing therethrough.

A liner (100) and closure (106) are provided for being initially assembled and subsequently installed on a container (104) of a product to create a package (107, 107A). The liner (100) is provided for being disposed between, and sealed to, the container (104) and the closure (106) mounted thereon. The liner (100) includes a metallic substrate layer (200) that is an aluminum alloy and that is located between first and second heat-sealable layers (212, 200), respectively. The liner (100) has a through hole (252), and the metallic substrate layer (200) has a laterally inward edge surface (210) that is exposed at the through hole (252).

A liner (100) and closure (106) are provided for being initially assembled and subsequently installed on a container (104) of a product to create a package (107, 107A). The liner (100) is provided for being disposed between, and sealed to, the container (104) and the closure (106) mounted thereon. The liner (100) includes a metallic substrate layer (200) that is an aluminum alloy and that is located between first and second heat-sealable layers (212, 200), respectively. The liner (100) has a through hole (252), and the metallic substrate layer (200) has a laterally inward edge surface (210) that is exposed at the through hole (252).

An apparatus for dispensing liquid from a container, and for monitoring the level of liquid within said container, comprises a container for storing liquid to be dispensed; and a conduit, the conduit comprising: a feed tube extending from the container to an appliance; a dip tube extending in the container to the bottom of the container; a liquid supply channel extending through the feed tube and dip tube and having an open first end defined by a lower end of the dip tube, which, in use, is arranged to be immersed in said liquid in said container, and a second end arranged, in use, to extend outside of said container; and a pressure measurement channel branching from the feed tube at a point located between said first and second ends of the liquid supply channel. The apparatus further comprises a pressure transducer in fluid communication with said pressure measurement channel, and a means to draw liquid from the first end of the liquid supply channel to dispense liquid from the second end of the liquid supply channel. The pressure measurement channel branches from the feed tube at a fixed height relative to the bottom of the dip tube.

A liner (100) and closure (106) are provided for being initially assembled and subsequently installed on a container (104) of a product to create a package (107, 107A). The liner (100) is provided for being disposed between, and sealed to, the container (104) and the closure (106) mounted thereon. The liner (100) includes a metallic substrate layer (200) that is an aluminum alloy and that is located between first and second heat-sealable layers (212, 200), respectively. The liner (100) has a through hole (252), and the metallic substrate layer (200) has a laterally inward edge surface (210) that is exposed at the through hole (252).

A liner (100) and closure (106) are provided for being initially assembled and subsequently installed on a container (104) of a product to create a package (107, 107A). The liner (100) is provided for being disposed between, and sealed to, the container (104) and the closure (106) mounted thereon. The liner (100) includes a metallic substrate layer (200) that is an aluminum alloy and that is located between first and second heat-sealable layers (212, 200), respectively. The liner (100) has a through hole (252), and the metallic substrate layer (200) has a laterally inward edge surface (210) that is exposed at the through hole (252).