The present invention relates to a device for transporting ready-cut and filled pieces of tube. In order to simplify the structural design of a device for transporting ready-cut and filled pieces of tube within a machine for producing double-chamber bags filled with brewable material, having a transport wheel, which has distributed over its circumference a plurality of double-chamber bag forming sets comprising a leading arm and a trailing arm and a profile part provided therebetween and being radially movable and supporting a bottom of a double-chamber bag, and which is rotatably mounted under a cover arranged in the vicinity of the upper vertex of the transport wheel, the present invention proposes that the arms are swivelably mounted eccentrically to the axis of rotation of the transport wheel and that the arms of adjacent double-chamber bag forming sets are swivelably mounted on a common swivel axis.

The present invention relates to a device for transporting ready-cut and filled pieces of tube. In order to simplify the structural design of a device for transporting ready-cut and filled pieces of tube within a machine for producing double-chamber bags filled with brewable material, having a transport wheel, which has distributed over its circumference a plurality of double-chamber bag forming sets comprising a leading arm and a trailing arm and a profile part provided therebetween and being radially movable and supporting a bottom of a double-chamber bag, and which is rotatably mounted under a cover arranged in the vicinity of the upper vertex of the transport wheel, the present invention proposes that the arms are swivelably mounted eccentrically to the axis of rotation of the transport wheel and that the arms of adjacent double-chamber bag forming sets are swivelably mounted on a common swivel axis.

A machine for dispensing an aerosol precursor composition for use with aerosol delivery devices. The machine may include a plurality of sources of dispensable, liquid aerosol precursor components. The plurality of sources may differ in the liquid aerosol precursor components being dispensable therefrom. The machine may include a user interface configured to allow a user to select an amount of the liquid aerosol precursor components for dispensing. The machine may also include a dispenser for dispensing the aerosol precursor components in response to the selection made on the user interface.

A machine for dispensing an aerosol precursor composition for use with aerosol delivery devices. The machine may include a plurality of sources of dispensable, liquid aerosol precursor components. The plurality of sources may differ in the liquid aerosol precursor components being dispensable therefrom. The machine may include a user interface configured to allow a user to select an amount of the liquid aerosol precursor components for dispensing. The machine may also include a dispenser for dispensing the aerosol precursor components in response to the selection made on the user interface.

A method of forming a multi-chambered pouch includes filling a first liquid into a chamber of the pouch through an opening; forming a frangible seal above the first liquid to provide a first sub-chamber having the first liquid and an open second sub-chamber above the first sub-chamber; sealing the first liquid in the first sub-chamber; filling a second liquid into the second sub-chamber through the opening; forming a seal over the second liquid within the second sub-chamber; sealing the second liquid in the second sub-chamber; and forming a permanent seal that intersects the frangible seal to form a first retaining chamber, a second retaining chamber, a third retaining chamber, and a fourth retaining chamber, wherein the first retaining chamber and the second retaining chamber retain the first liquid, and wherein the third retaining chamber and the fourth retaining chamber retain the second liquid.

A coaxial cartridge for multi-component materials includes a head part having an outlet, an inner tube forming a first storage compartment configured to store a first component inner tube forms part of the outlet, and an outer tube. The inner tube is arranged within the outer tube at a longitudinal axis that is common to both the inner tube and the outer tube. A space formed between the outer tube and the inner tube forms a second storage compartment configured to store a second component. The outer tube forms a further part of the outlet.

Disclosed are a pet food and a manufacturing method thereof. The pet food of the present invention includes a storage body having a can shape, an inner cap sealing an upper end of the storage body and provided in a disposable use, an outer cap detachably coupled to the storage body to cover the inner cap, and a plurality of feed bodies stored in the storage body, wherein a plurality of powder members are mixed in the storage body and when the storage body is shaken before feeding the feed to a pet, the plurality of powder members is coated on the plurality of feed bodies.

A manufacturing method of two-chamber type combined container-syringe including: a vacuum plugging process (S2) of eliminating air bubbles from the dissolving solution of the dissolving solution-filled cartridge and sealing the dissolving solution with a middle stopper after the dissolving solution filling process (S1); a vacuum plugging process (S2) has a first cooling processing (S21) of cooling the inside of a vacuum plugging equipment in which a dissolving solution-filled cartridge is disposed to a cooling temperature that does not freeze the dissolving solution, a first decompression processing (S23) of decreasing a pressure inside the vacuum plugging equipment while the vacuum plugging equipment maintains the cooling temperature after the first cooling processing (S21), and a middle stopper pushing processing (S24) of pushing the middle stopper downward and bringing the middle stopper into contact with the dissolving solution after the first decompression processing (S23). The dissolving solution can be easily filled in a bubble-free state in the two-chamber type combined container-syringe.

A manufacturing method of two-chamber type combined container-syringe including: a vacuum plugging process (S2) of eliminating air bubbles from the dissolving solution of the dissolving solution-filled cartridge and sealing the dissolving solution with a middle stopper after the dissolving solution filling process (S1); a vacuum plugging process (S2) has a first cooling processing (S21) of cooling the inside of a vacuum plugging equipment in which a dissolving solution-filled cartridge is disposed to a cooling temperature that does not freeze the dissolving solution, a first decompression processing (S23) of decreasing a pressure inside the vacuum plugging equipment while the vacuum plugging equipment maintains the cooling temperature after the first cooling processing (S21), and a middle stopper pushing processing (S24) of pushing the middle stopper downward and bringing the middle stopper into contact with the dissolving solution after the first decompression processing (S23). The dissolving solution can be easily filled in a bubble-free state in the two-chamber type combined container-syringe.

An aerosol-generating system is provided, including a nicotine source; and a delivery enhancing compound source, which includes a reaction product of one or both of: (i) an alpha-keto carboxylic acid and a compound of formula (I)

##STR00001## where R.sup.1 is selected from alkyl, phenyl, or substituted phenyl, and (ii) an alpha-hydroxy acid and a compound of formula (II)

##STR00002## where X is a halogen and R.sup.2 is selected from H, alkyl, phenyl, or substituted phenyl.