A package in which a bag formed from a polyethylene-based resin film having a small thickness, more specifically a thickness of 300 μm or less is filled with crushed polysilicon (Si chunks) and damage to the bag by the Si chunks is effectively prevented.

In a polysilicon package in which the bag 1 formed from a polyethylene-based resin having an average thickness of 300 μm or less is filled with the Si chunks 4, the bag 1 has a heat-sealed bonded part 2 at the bottom and is filled with the Si chunks 4 to ensure that the maximum expansion of the bag 1 becomes 5% or less when the bag 1 is held in an upright state with the bottom as a ground contact surface.

A package in which a bag formed from a polyethylene-based resin film having a small thickness, more specifically a thickness of 300 μm or less is filled with crushed polysilicon (Si chunks) and damage to the bag by the Si chunks is effectively prevented.

In a polysilicon package in which the bag 1 formed from a polyethylene-based resin having an average thickness of 300 μm or less is filled with the Si chunks 4, the bag 1 has a heat-sealed bonded part 2 at the bottom and is filled with the Si chunks 4 to ensure that the maximum expansion of the bag 1 becomes 5% or less when the bag 1 is held in an upright state with the bottom as a ground contact surface.

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.

Some embodiments of a smokeless tobacco system include a container including a plurality of preformed smokeless tobacco products configured to generally retain their shape and integrity during processing, shipping, and consumer handling. One or more of the preformed smokeless tobacco products are compressed between a lid and a base of the container to hinder movement of the one or more preformed smokeless tobacco products within the container. Each preformed smokeless tobacco product can include a moist smokeless tobacco in combination with a selected binder such that the final product is configured to have material properties providing improved handling, an improved mouth feel, and a satisfying flavor profile.

Some embodiments of a smokeless tobacco system include a container including a plurality of preformed smokeless tobacco products configured to generally retain their shape and integrity during processing, shipping, and consumer handling. One or more of the preformed smokeless tobacco products are compressed between a lid and a base of the container to hinder movement of the one or more preformed smokeless tobacco products within the container. Each preformed smokeless tobacco product can include a moist smokeless tobacco in combination with a selected binder such that the final product is configured to have material properties providing improved handling, an improved mouth feel, and a satisfying flavor profile.

A system to automate the filling of electronic vape cartridges with viscous liquid. The system includes an enclosure sealed with removable panels for maintenance access, compartments to interface cartridges and liquids with the internal mechanisms, and an external human machine interface. The internal mechanisms utilize thermally insulative annular nozzles and a thermal control system to diminish the internal friction of the liquid to facilitate consistent transfer of liquid between a reservoir, heated by a heated bed, syringe assembly, comprising a heating element along a raceway, and empty cartridges inserted into the system. This system is capable of filling approximately 100 cartridges per minute, and may interface with cartridges of various configurations and formulations of varying composition and characteristics.

At least one example embodiment relates to a system for filling a plurality of containers with oral products. The system comprises a container station and a shuttle assembly. The container station is configured to provide a plurality of containers. The shuttle assembly is configured to move between a first shuttle position to receive a plurality of oral products and a second shuttle position to deposit the oral products into the containers. At least one example embodiment relates to a method of filling a plurality of containers with oral products.

A system includes a flow line connected to a fluid and a suction line in fluid communication with the flow line, wherein the fluid is to carry cuttings from a borehole. The system also includes a flow line pump to move fluid via the suction line onto a surface of a cuttings separation conveyor, wherein the surface of the cuttings separation conveyor comprises a separation screen. The system also includes a cuttings container positioned to collect a portion of the cuttings from the separation conveyor

A method for packaging products, wherein packaging material web is transported in direction of an upwardly open pair of folding claws, is cut to length while forming a planar blank of the wrapper, and the blank is positioned above the folding claws, wherein the product is metered, the product portion is pre-shaped, and the blank by placing thereon the pre-shaped product portion is folded into the claws while forming the upwardly open wrapper. Thereafter, the upward-projecting lateral longitudinal peripheries of the wrapper are folded inward onto the product portion, whereupon the transverse peripheries of the wrapper which extend perpendicular thereto are folded inward onto the product portion. The lateral longitudinal peripheries and transverse peripheries of the wrapper are folded inward onto the product portion and are simultaneously connected to one another, while the wrapper provided with product portion is still situated in the pair of folding claws.

An apparatus includes a fixed assembly and a reciprocating assembly. The fixed assembly includes a hopper, a first gas manifold, and a dispensing chamber, and the reciprocating assembly includes a channel assembly defining a channel conduit, a shield plate vertically aligned therewith, and a second gas manifold. The reciprocating assembly may move, in relation to the fixed assembly, to a first position to enable the channel conduit to be filled with bulk compressible material from the hopper, a second position to enable compressible material to be pushed from the channel conduit to the dispensing conduit and to be compressed in the dispensing chamber according to a first gas directed through the channel conduit by the first gas manifold, and a third position to enable the compressed material to be pushed out of the dispensing conduit according to a second gas directed through the dispensing conduit by the second gas manifold.