A gas stem assembly is disclosed including a vent tube having at least one protrusion extending radially from the vent tube and a receiver having a non-circular opening and an attachment surface at an end of the non-circular opening. The vent tube is at least partially insertable through the non-circular opening of the receiver when the vent tube and the at least one protrusion are aligned with the non-circular opening. The attachment surface of the receiver contacts the at least one protrusion to inhibit the at least one protrusion from passing back through the non-circular opening when the at least one protrusion is misaligned with the non-circular opening.

A gas stem assembly is disclosed including a vent tube having at least one protrusion extending radially from the vent tube and a receiver having a non-circular opening and an attachment surface at an end of the non-circular opening. The vent tube is at least partially insertable through the non-circular opening of the receiver when the vent tube and the at least one protrusion are aligned with the non-circular opening. The attachment surface of the receiver contacts the at least one protrusion to inhibit the at least one protrusion from passing back through the non-circular opening when the at least one protrusion is misaligned with the non-circular opening.

An apparatus for the automated filling of cartridges of e-vapor devices may include a filling drum configured to receive at least one cartridge of an e-vapor device. The apparatus may additionally include a needle assembly including at least one hypodermic needle. The needle assembly is configured to transition between a lowered state and a raised state. The lowered state is where the hypodermic needle is moved down into the cartridge, while the raised state is where the hypodermic needle is lifted up and away from the cartridge. The apparatus may further include a pump assembly configured to pump a pre-vapor formulation into the cartridge when the needle assembly is in the lowered state. The pump assembly may include a variable amplitude cam system configured to adjust an amount of the pre-vapor formulation for pumping to the cartridge without changing start and stop times for the pumping.

An apparatus for the automated filling of cartridges of e-vapor devices may include a filling drum configured to receive at least one cartridge of an e-vapor device. The apparatus may additionally include a needle assembly including at least one hypodermic needle. The needle assembly is configured to transition between a lowered state and a raised state. The lowered state is where the hypodermic needle is moved down into the cartridge, while the raised state is where the hypodermic needle is lifted up and away from the cartridge. The apparatus may further include a pump assembly configured to pump a pre-vapor formulation into the cartridge when the needle assembly is in the lowered state. The pump assembly may include a variable amplitude cam system configured to adjust an amount of the pre-vapor formulation for pumping to the cartridge without changing start and stop times for the pumping.

A carbonation machine may include a carbonation head, a holder that is configured to hold a gas canister, the holder comprising a connector with a socket configured to enable linear insertion of a valve of the canister into the socket, the socket including a seal with at least one lateral opening to enable fluidic flow between one or more laterally oriented ports of the valve and a conduit of the holder while preventing leakage of gas from the fluidic flow, and a holding mechanism configured to hold a lateral projection from the canister after insertion of the valve into the socket such that the valve remains in the socket, and an activation mechanism configured to operate the valve to release the gas from the canister when inserted into the socket so as to enable the gas to flow via the conduit to the carbonation head

A system that dispenses precise amounts of ingredients in sequential steps that formulate a craft cocktail, mixed drink or shot into a single serve beverage container. The system then closes the container and a resulting vacuum is created that hermetically seals the lid to the container. The sealed container is then agitated in a prescribed motion to mix the contents as they would normally be done by expert individuals in the field of mixology or bartending. The system comprises of a series of stations that inject ingredients, a closing mechanism for the lid resulting in a vacuum that seals the lid to the container body, method of maintaining the lid on to the container body until vacuum is established, and agitating mechanism that precisely mixes the ingredients into themselves prior to finish packing.

A system that dispenses precise amounts of ingredients in sequential steps that formulate a craft cocktail, mixed drink or shot into a single serve beverage container. The system then closes the container and a resulting vacuum is created that hermetically seals the lid to the container. The sealed container is then agitated in a prescribed motion to mix the contents as they would normally be done by expert individuals in the field of mixology or bartending. The system comprises of a series of stations that inject ingredients, a closing mechanism for the lid resulting in a vacuum that seals the lid to the container body, method of maintaining the lid on to the container body until vacuum is established, and agitating mechanism that precisely mixes the ingredients into themselves prior to finish packing.

There is described a filling valve (5) for a filling machine (1) configured to fill a receptacle (2) and comprising a flow channel (11), having a first passage section (15) configured to be fluidly connected with the receptacle (2), and at least one shutter (22) movably arranged within the flow channel (11) and configured to be controlled, during a first operating mode in which the flow channel (11) is fed with a first pourable product, in: a resting position, in which it defines a first maximum opening passage for the first pourable product; a closing position, in which it is configured to sealingly cooperate with the first passage section (15) so as to prevent any fluidic connection between this latter and the receptacle (2); and at least one intermediate position, in which it defines a respective intermediate opening passage, so as to allow a partial flow rate of the first pourable product towards said receptacle; the flow channel (11) has a second passage section (18) configured to be fluidly connected with the first passage section (15) and with the receptacle (2); the shutter (22) is configured to be further controlled, during a second operating mode in which the flow channel (11) is fed with a second pourable product having solid particles in suspension, in: the resting position, in which it defines a second maximum opening passage for the second pourable product; and a partial closing position, in which it defines a restricted passage for the second pourable product.

There is described a filling valve (5) for a filling machine (1) configured to fill a receptacle (2) and comprising a flow channel (11), having a first passage section (15) configured to be fluidly connected with the receptacle (2), and at least one shutter (22) movably arranged within the flow channel (11) and configured to be controlled, during a first operating mode in which the flow channel (11) is fed with a first pourable product, in: a resting position, in which it defines a first maximum opening passage for the first pourable product; a closing position, in which it is configured to sealingly cooperate with the first passage section (15) so as to prevent any fluidic connection between this latter and the receptacle (2); and at least one intermediate position, in which it defines a respective intermediate opening passage, so as to allow a partial flow rate of the first pourable product towards said receptacle; the flow channel (11) has a second passage section (18) configured to be fluidly connected with the first passage section (15) and with the receptacle (2); the shutter (22) is configured to be further controlled, during a second operating mode in which the flow channel (11) is fed with a second pourable product having solid particles in suspension, in: the resting position, in which it defines a second maximum opening passage for the second pourable product; and a partial closing position, in which it defines a restricted passage for the second pourable product.

A filling member for filling a container with a filling product, for example in a beverage filling system, includes a product outlet which is designed to dispense the filling product into a container located thereunder; and an equipment portion which as a first equipment means includes a screen device with a screen and which is designed to transfer the screen as required into a screen state, in which the screen is located between the product outlet and the container so that the filling product is filtered by the screen when introduced into the container, and out of the screen state.