Described is a unit for filling containing elements (2) of single-use capsules (3) with a dose (33) of product for extraction or infusion beverages, comprising: a line (4) for transporting containing elements (2); a station (SR) for filling the containing elements (2) with a dose (33) of product which comprises: at least a first containing seat (S1) designed to receive a dose (33) of product; a substation (ST1) for forming the dose (33) provided with a device (6) for releasing a predetermined quantity of product defining the dose (33) inside the first containing seat (S1), the release device (6) comprising a hopper (38) and at least one rotary element (40a) having a helical profile which extends between a first end and a second end, configured to rotate about a respective axis (X4) of rotation; a drive and control unit (15) configured to drive the rotary element (40a) according to a speed of rotation variable as a function of an angular position of the first end of the rotary unit (40a).

An adjustable pouch machine comprises a vertical sealer module forms transverse seals between two plies of a pouch web to partially define a plurality of pouches. Rollers selectively tension and relax the web on the vertically oriented wheel, allowing them to drop away from heated lands on emergency and cycle stops. A filler wheel has a plurality of adjustable gripper units mounted directly thereon for transporting independent separate pouches cut from the pouch web. An adjustable knife is selectively provided with changeable knife hub sets to handle a variety of pouch sizes where a filler wheel alternately first fills and seals pouches in a train. Gear linkage accommodates variation in distance between hubs of different sets. Various embodiments, apparatus and methods are described.

An apparatus for packaging of loose product includes a loading station, a box forming station and an uploading station. The loading station includes moveable chutes in spaced apart relation. Each chute has an open top, an open upstream end, and an open downstream end. The open top is configured to receive loose product while moving along a first feed path. The box forming station is operable to partially erect boxes in spaced apart relation with first and second open sides and align the first open side of each box with the downstream end of a corresponding chute while moving along a second feed path. The unloading station includes a stationary vacuum head in communication with the second open side of each box. The vacuum head provides a continuous vacuum source along the second feed path operable to move loose product from the chute into the boxes.

A dispensing system comprises a main base with a hopper insertion hole. An upper base, fixed above the main base by spacers, comprises a stirrer insertion hole. A lower base, below the main base, has a hopper insertion hole with an aperture larger than a diameter of a hopper, and is coupled to the main base by a guide. A rotatable hopper, disposed in the insertion hole of the main base, comprises a bottom surface with metering holes. A stirrer, inside the hopper and fixed to the upper base, feeds material into the metering holes. A gate, on a bottom surface of the lower base, comprises a bottom surface with a dispensing hole. The gate diameter is greater than the hopper. A gate spring, between the bottom of the main base and an upper surface of the lower base, is mounted parallel to a sliding motion of the lower base. A vibration device agitates the assembly on the main base.

A metering device for the volumetric metering of powder, including pharmaceutical powder, and the simultaneous metering and filling of target cavities with metered powder, as well as a metering system and an associated method are shown. One embodiment of the metering device includes a metering station with a powder storage container, a filling station, and a movable metering member. The metering member has a flat transfer surface that includes metering cavities, which correspond in number and geometry to target cavities arranged in the filling station, and also to metering openings in the metering station. The metering cavities each have an open end and a base, wherein an air-permeable filter element forms at least a part of the base of each. The metering member includes a central pressure channel connected to the metering cavities through the filter elements for applying a negative or positive pressure to the metering cavities.

In an example embodiment, a doser assembly includes a hopper assembly configured to receive plant material, a bracket assembly connected to the hopper assembly, and a roller in a hopper opening defined by the hopper assembly extending through the hopper assembly. An interior surface of the hopper assembly may define the hopper opening. The bracket assembly may include a shaft extending across a portion of the hopper opening. The roller may be in the portion of the hopper opening of the hopper assembly and may extend between a first part and a second part of the interior surface of the hopper assembly. The roller may be connected to the shaft and may be configured to rotate with rotation of the shaft.

In an example embodiment, a doser assembly includes a hopper assembly configured to receive plant material, a bracket assembly connected to the hopper assembly, and a roller in a hopper opening defined by the hopper assembly extending through the hopper assembly. An interior surface of the hopper assembly may define the hopper opening. The bracket assembly may include a shaft extending across a portion of the hopper opening. The roller may be in the portion of the hopper opening of the hopper assembly and may extend between a first part and a second part of the interior surface of the hopper assembly. The roller may be connected to the shaft and may be configured to rotate with rotation of the shaft.

Filling unit for a manufacturing machine for the production of disposable cartridges for electronic cigarettes; the filling unit has: a cylindrical tank which is arranged horizontally, is mounted so as to rotate in a stepwise manner around a vertical rotation axis, is delimited, at the bottom, by a base disc having a circular shape, and is delimited, on the sides, by a cylindrical side wall; a feeding duct that feeds a flow of tobacco inside the tank; a plurality of groups of seats, each of which is obtained in the base disc and is adapted to receive and contain a corresponding dose of tobacco; and a transfer device which is arranged in a fixed position and cyclically transfers the doses of tobacco contained inside the seats of a group standing still.

An apparatus configured to provide portioned instances of a compressible material includes a channel assembly, a gas source, a cutting assembly, and a discharge assembly. The channel assembly holds a bulk instance of the material extending through upper and lower channels of a continuous channel. The gas source supplies gas to compress the bulk instance. The cutting assembly moves in relation to the channel assembly to isolate the upper and lower channels, severing upper and lower material portions of the bulk instance. The discharge assembly directs gas to impinge on a lower face of the cutting assembly to discharge the lower material portion as a portioned instance. The channel assembly may be moveable, where operation of the gas source, cutting assembly, and/or discharge assembly are based on moving the channel assembly between various positions. The gas supply may be controlled based on a determined property of the portioned instance.

The method includes covering a first opening of at least one first chute using a lid, delivering air from a pressurized air source into the at least one first chute, and advancing at least one first plunger through a first end of the at least one first chute to transfer a product through a second end of the at least one first chute and into a first open side of at least one first box.