In an example embodiment, an apparatus for making pouch products includes a conveyor system. The conveyor system includes a first receiving location along a path of the conveyor system, and a dosing location along the path of the conveyor system. The apparatus also includes a first material dispensing station configured to transfer a first material to the first receiving location. The first material includes a first elastic layer and a first support layer. The first material dispensing station includes a dispenser roller configured to hold a roll of the first material, a plurality of rollers configured to convey the first material from the dispenser roller to the first receiving location, and a stripper plate configured remove at least a portion of the first support layer from a portion of the first elastic layer.

A machine for packaging a product into flexible packages and which comprises one or more forming and filling units for forming and filling the packages; each forming and filling unit extends along a longitudinal axis and comprises at least one nozzle, feed means configured to make advance along the longitudinal axis a tubular casing of the material with which to make the packages and having an internal surface facing the nozzle, first longitudinal welding means for joining together at least two sides of the tubular casing and second longitudinal welding means, disposed downstream of said first longitudinal welding means, and configured to join together at least two portions of the internal surface of the tubular casing in a marginal end volume.

A machine for packaging a product into flexible packages and which comprises one or more forming and filling units for forming and filling the packages; each forming and filling unit extends along a longitudinal axis and comprises at least one nozzle, feed means configured to make advance along the longitudinal axis a tubular casing of the material with which to make the packages and having an internal surface facing the nozzle, first longitudinal welding means for joining together at least two sides of the tubular casing and second longitudinal welding means, disposed downstream of said first longitudinal welding means, and configured to join together at least two portions of the internal surface of the tubular casing in a marginal end volume.

A mold configuration for forming a pocket in a film comprising: a film support surface; a perimeter edge at said film support surface; wall surfaces inward of the perimeter edge defining a mold cavity; the wall surfaces including transition wall surfaces extending to a bottom wall surface; and a plateau surface inward of the perimeter edge. In one form, the perimeter edge includes sharp corner profile perimeter edge portions defining at least one sharp corner profile. A method of forming a pouch, includes using the disclosed mold configuration. A resultant pouch has a perimeter seal seam having at least one sharp corner profile.

A mold configuration for forming a pocket in a film comprising: a film support surface; a perimeter edge at said film support surface; wall surfaces inward of the perimeter edge defining a mold cavity; the wall surfaces including transition wall surfaces extending to a bottom wall surface; and a plateau surface inward of the perimeter edge. In one form, the perimeter edge includes sharp corner profile perimeter edge portions defining at least one sharp corner profile. A method of forming a pouch, includes using the disclosed mold configuration. A resultant pouch has a perimeter seal seam having at least one sharp corner profile.

A medicine packaging apparatus 10 has a packaging paper supplying part 42; a sealing device 50 for forming a packaging bag; a medicine introducing part 80 for introducing the medicines M from an opening portion of the packaging bag P in an unsealed-state; a detecting part 90 for detecting presence of the medicines M in an introducing path for the medicines M by the medicine introducing part 80 and a determining part which can determine that a packaging failure occurs under a condition that the presence of the medicines M is detected by the detecting part 90 within a time period after a timing of starting to seal the packaging bag P in which the medicines M have been introduced and before a timing of introducing the medicines M to be packaged in a subsequent packaging bag P through the medicine introducing part 80.

A medicine packaging apparatus 10 has a packaging paper supplying part 42; a sealing device 50 for forming a packaging bag; a medicine introducing part 80 for introducing the medicines M from an opening portion of the packaging bag P in an unsealed-state; a detecting part 90 for detecting presence of the medicines M in an introducing path for the medicines M by the medicine introducing part 80 and a determining part which can determine that a packaging failure occurs under a condition that the presence of the medicines M is detected by the detecting part 90 within a time period after a timing of starting to seal the packaging bag P in which the medicines M have been introduced and before a timing of introducing the medicines M to be packaged in a subsequent packaging bag P through the medicine introducing part 80.

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.

There is described a machine for packaging products in tubular wrappings of thermoplastic material obtained from continuous film unwound from a reel, equipped with a double transverse heat-sealing and intermediate cutting assembly that, with a horizontal translation movement, accompanies the pack that the assembly is closing the trailing end of to be unloaded while it is simultaneously closing the leading end of the tubular wrapper of the future pack that the heat-sealing and cutting assembly, also due to the presence thereon of pressers and counter-pressers, extracts from a tube-forming and longitudinal heat-sealing mandrel and that, by the same assembly, is separated from the pack upstream with a transverse cut.

At the end of its active movement, the transverse heat-sealing and cutting assembly opens and with a horizontal movement in the opposite direction to and at a higher speed than the preceding one returns to the cycle start position, upstream of a new pack already filled and ready to be heat sealed at the trailing end and accompanied to be unloaded, repeating the cycle described. The transverse heat-sealing and cutting assembly is aided by a conveyor that supports and advances the packs being formed and those finished and separated, and that is equipped with a gap with variable geometry, which opens during the active horizontal movement of the same assembly and closes during the reverse horizontal movement of the same assembly.