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).

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).

A beverage brewing cartridge includes a base including a sidewall having first and second open ends and a cover sealed to a rim of the first open end, and a plug configured to be inserted into the second open end. The cartridge is configured to hold beverage brewing material when the plug is inserted. The cover is configured to be breached to allow pressurized liquid to enter the cartridge to brew a beverage. The plug includes weakened areas configured to open after the pressurized liquid enters the cartridge to allow the beverage to flow from the cartridge. A method of constructing the cartridge includes placing the base in a holder, inserting a portion of brewing material into the base through the second open sidewall end, tamping the brewing material in the base through the second open sidewall end, and inserting the plug into the second open sidewall end.

A recyclable, thermally insulated shipping container is entirely constructed from organic fiber materials in such a manner that the container is curbside recyclable without separation of component materials. The container includes a corrugated cardboard outer box having a bottom wall, a plurality of sidewalls and a top wall, a corrugated cardboard inner liner assembly comprising a corrugated cardboard inner box having a bottom wall and a plurality of sidewalls, and a corrugated cardboard lid assembly. The outer box, inner liner assembly and lid assembly cooperate to create a plurality of thermally insulated cavities which are sequentially filled and uniformly packed with pre-portioned, predetermined volumes of loose-fill cellulose (organic fiber) insulation to create a consistent insulating value throughout the container.

A recyclable, thermally insulated shipping container is entirely constructed from organic fiber materials in such a manner that the container is curbside recyclable without separation of component materials. The container includes a corrugated cardboard outer box having a bottom wall, a plurality of sidewalls and a top wall, a corrugated cardboard inner liner assembly comprising a corrugated cardboard inner box having a bottom wall and a plurality of sidewalls, and a corrugated cardboard lid assembly. The outer box, inner liner assembly and lid assembly cooperate to create a plurality of thermally insulated cavities which are sequentially filled and uniformly packed with pre-portioned, predetermined volumes of loose-fill cellulose (organic fiber) insulation to create a consistent insulating value throughout the container.

A method of manufacturing a unitary energy absorbing structure for a vehicle includes providing a first mold having a cavity receiving a first mandrel and a second mold having a cavity receiving a second mandrel. At least one mandrel segment is positioned in the first mold cavity and cooperates with the first mandrel. One or more layers of composite material at least partially cover the first mold cavity, first mandrel, at least one mandrel segment and second mold. The unitary structure is formed from the first layer, the second layer and the third layer of composite material with the first mandrel, the at least one mandrel segment and the second mandrel in the first mold and the second mold.

A method of manufacturing a unitary energy absorbing structure for a vehicle includes providing a first mold having a cavity receiving a first mandrel and a second mold having a cavity receiving a second mandrel. At least one mandrel segment is positioned in the first mold cavity and cooperates with the first mandrel. One or more layers of composite material at least partially cover the first mold cavity, first mandrel, at least one mandrel segment and second mold. The unitary structure is formed from the first layer, the second layer and the third layer of composite material with the first mandrel, the at least one mandrel segment and the second mandrel in the first mold and the second mold.

A system and method for closing and sealing a cone is provided. One embodiment extends a first closing head in a first downward slant onto an open top of the cone filled with the smokable material to form a first fold on the top of the cone; extends a sealing head downward onto the first fold; extends a second closing head in a second downward slant onto the open top of the cone to form a second fold on the top of the cone; extends the sealing head downward onto the first fold and the second fold; extends a third closing head in a third downward slant onto the open top of the cone to form a third fold on the top of the cone; and extends the sealing head downward onto the first fold, the second fold, and the third fold.

A system and method for closing and sealing a cone is provided. One embodiment extends a first closing head in a first downward slant onto an open top of the cone filled with the smokable material to form a first fold on the top of the cone; extends a sealing head downward onto the first fold; extends a second closing head in a second downward slant onto the open top of the cone to form a second fold on the top of the cone; extends the sealing head downward onto the first fold and the second fold; extends a third closing head in a third downward slant onto the open top of the cone to form a third fold on the top of the cone; and extends the sealing head downward onto the first fold, the second fold, and the third fold.

Systems and methods for manufacturing and inserting a predetermined number of material-filled pouches into containers are disclosed. A system includes a pouch providing system comprising a plurality of lanes, wherein each one of the plurality of lanes includes a pouch making machine and a hold-back structure. The system also includes a conveyor system structured and arranged to move a plurality of containers into alignment with the plurality of lanes. The system further includes a controller structured and arranged to control the hold-back structure in each one of the plurality of lanes such that the pre-determined pouches are inserted into the plurality of containers when the plurality of containers are aligned with the plurality of lanes.