A user-replaceable e-liquid reservoir for dispensing e-liquid, the reservoir being inserted into, or otherwise attached to, a portable, personal e-cigarette device and engaging with an electrical or electronic pump fluid transfer system in the device, the device including: an electrical or electronic pump, being configured to transfer e-liquid from the e-liquid reservoir to an atomizing unit in the device, the pump delivering a pre-defined or variable quantity of e-liquid from the reservoir; and in which the reservoir is not user-refillable.

A user-replaceable e-liquid reservoir for dispensing e-liquid, the reservoir being inserted into, or otherwise attached to, a portable, personal e-cigarette device and engaging with an electrical or electronic pump fluid transfer system in the device, the device including: an electrical or electronic pump, being configured to transfer e-liquid from the e-liquid reservoir to an atomizing unit in the device, the pump delivering a pre-defined or variable quantity of e-liquid from the reservoir; and in which the reservoir is not user-refillable.

Fluid liners and container assemblies for a spraying apparatus and related methods of use are provided. The disclosed liners include a side wall defining a fluid-containing portion and an open end, a flange extending outwardly from the side wall, and a latching member coupled to the flange, where the latching member includes a retaining feature for releasably coupling the side wall to a lid compatible with the liner. Disclosed fluid containers include a lid having a fluid outlet adapted to couple the lid to the spraying apparatus and a collapsible liner, where either the liner or lid comprises a latch that releasably couples the liner and the lid to each other. Advantageously, the fluid liners and fluid containers can provide enhanced storage options for container contents between spraying operations.

Fluid liners and container assemblies for a spraying apparatus and related methods of use are provided. The disclosed liners include a side wall defining a fluid-containing portion and an open end, a flange extending outwardly from the side wall, and a latching member coupled to the flange, where the latching member includes a retaining feature for releasably coupling the side wall to a lid compatible with the liner. Disclosed fluid containers include a lid having a fluid outlet adapted to couple the lid to the spraying apparatus and a collapsible liner, where either the liner or lid comprises a latch that releasably couples the liner and the lid to each other. Advantageously, the fluid liners and fluid containers can provide enhanced storage options for container contents between spraying operations.

A device is provided that accommodates elongate receptacles and charges. The device includes a superior surface, a first positioning device, a detaining device, and either a pusher or a second positioning device. The first positioning device is adapted and arranged to accommodate a pairing of a charge and a corresponding elongate receptacle. The pusher is moveable along a direction towards the superior surface to introduce the charge into the elongate receptacle. The second positioning device accommodates the pusher with the second positioning device and the pusher being moveable along the direction towards the superior surface to introduce the charge into the elongate receptacle. The detaining device limits the extent of movement of the pusher towards the superior surface.

A tube filling machine (1) adapted to fill different types of empty tubes (18) simultaneously, where the filling machine (1) comprises a grouping device (11), a transfer device (9), a conveyor (7) and a filling device (2) comprising a plurality of filling nozzles (3, 4, 5, 6), where the grouping device (11) comprises a first supply tray (13) with a first type of tubes, a second supply tray (14) with a second type of tubes, a receiving tray (17) and a pick-up head (12), where the transfer device (9) is adapted to transfer a grouped row of empty tubes (18) from the receiving tray (17) to the conveyor (7), where the grouping device (11) is adapted to place a plurality of groups (21) of empty tubes adjacent each other in the receiving tray (17), where a group (21) comprises a row of the first type of tubes and a row of the second type of tubes, that the transfer device (9) is adapted to transfer a row of grouped empty tubes from the receiving tray (17) to the conveyor (9), and where the filling nozzles (3, 4, 5, 6) are adapted to fill the grouped empty tubes with different content.

A tube filling machine (1) adapted to fill different types of empty tubes (18) simultaneously, where the filling machine (1) comprises a grouping device (11), a transfer device (9), a conveyor (7) and a filling device (2) comprising a plurality of filling nozzles (3, 4, 5, 6), where the grouping device (11) comprises a first supply tray (13) with a first type of tubes, a second supply tray (14) with a second type of tubes, a receiving tray (17) and a pick-up head (12), where the transfer device (9) is adapted to transfer a grouped row of empty tubes (18) from the receiving tray (17) to the conveyor (7), where the grouping device (11) is adapted to place a plurality of groups (21) of empty tubes adjacent each other in the receiving tray (17), where a group (21) comprises a row of the first type of tubes and a row of the second type of tubes, that the transfer device (9) is adapted to transfer a row of grouped empty tubes from the receiving tray (17) to the conveyor (9), and where the filling nozzles (3, 4, 5, 6) are adapted to fill the grouped empty tubes with different content.

Multi-layer films for making bags for containing flowable materials, in particular to large bags for dairy products. The multi-layer films have an outer and an inner sealant layer and a core layer and optionally, an interposed layer positioned between the outer sealant layer and the core layer and between the core layer and the inner sealant layer. The outer and inner sealant layers contain an ethylene/α-olefin interpolymer composition and the intermediate layer optionally contains this interpolymer composition.

An improved paperboard pouch comprising a multilayer substrate and a method of making the same is provided. The multilayer paperboard pouch comprises an outer surface and an inner surface, wherein one of the surfaces is defined as a food contact surface. In the depicted embodiment, the properties of the polymer layer are chosen to provide adequate mechanical and barrier protection to the paper-based pouch formed on the conventional pouch-forming equipment. A method of manufacturing a multilayer paperboard pouch using conventional bag-making equipment (“CBME”) running at normal production speed for making standard plastic pouches is also provided. First, a paper is extrusion-coated and then the CBME is configured with a feeder for feeding an extrusion-coated paper intermittently for a length along a feeding path; a cutter disposed at a position predetermined for cutting one of the layers of the coated paper and forming a first side gusset, a second side gusset and a bottom gusset portions and for folding each of a first side gusset, a second side gusset and a bottom gusset portions into halves along a center line extending longitudinally thereof; and a sealer for sealing the layers of the polymer with the layers of the bottom gusset portion and the layers of the first and second gusset portions, respectively to form the finished multilayer paperboard pouch ready for sale and distribution to various retailers. It is to be noted that in the depicted embodiment various closure constructions and mechanism can be used for heat sealing the finished pouches.

An improved paperboard pouch comprising a multilayer substrate and a method of making the same is provided. The multilayer paperboard pouch comprises an outer surface and an inner surface, wherein one of the surfaces is defined as a food contact surface. In the depicted embodiment, the properties of the polymer layer are chosen to provide adequate mechanical and barrier protection to the paper-based pouch formed on the conventional pouch-forming equipment. A method of manufacturing a multilayer paperboard pouch using conventional bag-making equipment (“CBME”) running at normal production speed for making standard plastic pouches is also provided. First, a paper is extrusion-coated and then the CBME is configured with a feeder for feeding an extrusion-coated paper intermittently for a length along a feeding path; a cutter disposed at a position predetermined for cutting one of the layers of the coated paper and forming a first side gusset, a second side gusset and a bottom gusset portions and for folding each of a first side gusset, a second side gusset and a bottom gusset portions into halves along a center line extending longitudinally thereof; and a sealer for sealing the layers of the polymer with the layers of the bottom gusset portion and the layers of the first and second gusset portions, respectively to form the finished multilayer paperboard pouch ready for sale and distribution to various retailers. It is to be noted that in the depicted embodiment various closure constructions and mechanism can be used for heat sealing the finished pouches.