The method includes providing a body with an upper mounting surface and a lower end, an interior surface of the body defining a cavity, the cavity including a first inlet and a first outlet in the upper mounting surface and the lower end, respectively, the interior surface including a frustoconical inner surface with a first tapered end that is connected to the first outlet. The method further includes first inserting an adjustable member within the cavity, the adjustable member defining a bore with a second inlet and a second outlet, the adjustable member including a frustoconical external surface with a second tapered end that coaxially aligns with the first tapered end, and first connecting a funnel with a projecting land to the body.

The method includes providing a body with an upper mounting surface and a lower end, an interior surface of the body defining a cavity, the cavity including a first inlet and a first outlet in the upper mounting surface and the lower end, respectively, the interior surface including a frustoconical inner surface with a first tapered end that is connected to the first outlet. The method further includes first inserting an adjustable member within the cavity, the adjustable member defining a bore with a second inlet and a second outlet, the adjustable member including a frustoconical external surface with a second tapered end that coaxially aligns with the first tapered end, and first connecting a funnel with a projecting land to the body.

A sandbag filling system includes a support frame, a driving unit, a conveyor unit, and a hopper chute. The support frame includes a feed gate and an adjustable mount and is configured to receive a material and guide the material to a conveyor belt. The driving unit is arranged in the support frame and includes a motor connected to a drive shaft. The conveyor unit is arranged in the support frame as well and includes a conveyor belt configured to be moved by the driving unit. The hopper chute is arranged below the feed gate of the support frame and located proximal to the conveyor belt.

A sandbag filling system includes a support frame, a driving unit, a conveyor unit, and a hopper chute. The support frame includes a feed gate and an adjustable mount and is configured to receive a material and guide the material to a conveyor belt. The driving unit is arranged in the support frame and includes a motor connected to a drive shaft. The conveyor unit is arranged in the support frame as well and includes a conveyor belt configured to be moved by the driving unit. The hopper chute is arranged below the feed gate of the support frame and located proximal to the conveyor belt.

A rotary filling machine for filling containers with bridgeable dry materials includes a turret supporting a plurality of circumferentially spaced drop buckets and a plurality of funnel assemblies located under the drop buckets. A stationary slide plate is located vertically between the funnel assemblies and the drop buckets. The slide plate is configured such that flow paths from the bottoms of the drop buckets to the inlet openings of the funnel assemblies increase progressively in at least a portion of a circumferential extent of the slide plate. Drop buckets are located above the slide plate and rotate with the turret. Each drop bucket is provided with one or more partitions that hinder the “snow-plowing of particles” along the edge of the associated fill opening in the machine’s fill plate rather than the sweeping of those particles into the fill opening.

A rotary filling machine for filling containers with bridgeable dry materials includes a turret supporting a plurality of circumferentially spaced drop buckets and a plurality of funnel assemblies located under the drop buckets. A stationary slide plate is located vertically between the funnel assemblies and the drop buckets. The slide plate is configured such that flow paths from the bottoms of the drop buckets to the inlet openings of the funnel assemblies increase progressively in at least a portion of a circumferential extent of the slide plate. Drop buckets are located above the slide plate and rotate with the turret. Each drop bucket is provided with one or more partitions that hinder the “snow-plowing of particles” along the edge of the associated fill opening in the machine’s fill plate rather than the sweeping of those particles into the fill opening.

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 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 drug supply device includes: a plurality of cassettes configured to eject a drug one by one; and a control device configured to set a plurality of groups including a plurality of cassettes selected from among the plurality of cassettes. The control device selects a cassette that performs a drug ejection operation from each of the plurality of groups such that a number of tablets of a drug to be ejected from the plurality of cassettes that perform the drug ejection operation is each levelled in one of the plurality of group and among the plurality of groups.

A drug supply device includes: a plurality of cassettes configured to eject a drug one by one; and a control device configured to set a plurality of groups including a plurality of cassettes selected from among the plurality of cassettes. The control device selects a cassette that performs a drug ejection operation from each of the plurality of groups such that a number of tablets of a drug to be ejected from the plurality of cassettes that perform the drug ejection operation is each levelled in one of the plurality of group and among the plurality of groups.