The present invention regards a method for filling containers with a single-dose composition comprising or, alternatively, consisting of mannitol in powder form. Such process comprises the following steps: a) breaking up a coherent mass of powder mannitol, so as to obtain a broken-up mass from said coherent mass; c) filling a plurality of containers with the broken-up mass of step a), wherein a bulk density of the coherent mass is smaller than a bulk density of the broken-up mass.

The invention relates to a filling system (1) for a container for storing solid particles, comprising a distribution device (5) for solid particles for receiving and selectively distributing the solid particles towards a dispensing device (7), and comprising at least one divider element (11), the dispensing device (7) comprising at least one scattering element (13) for homogeneously filling the container with solid particles, the divider element (11) being rotatably mounted about an axis substantially parallel to the direction of flow of the stream of solid particles in order to allocate any defect in the flow of the solid particles in the distribution device (5).

The invention relates to a filling system (1) for a container for storing solid particles, comprising a distribution device (5) for solid particles for receiving and selectively distributing the solid particles towards a dispensing device (7), and comprising at least one divider element (11), the dispensing device (7) comprising at least one scattering element (13) for homogeneously filling the container with solid particles, the divider element (11) being rotatably mounted about an axis substantially parallel to the direction of flow of the stream of solid particles in order to allocate any defect in the flow of the solid particles in the distribution device (5).

A centrifugal bowl parts feeder system for various relatively heavy parts feeding including automotive bearings, gears, castings and other small, rugged and heavy part1 to 6 inches in diameter and to 5 pounds apiece. The components for this heavy duty centrifugal parts feeder system embraces a feeder bowl system with a durable, high impact bowl and surface, a drive assembly and a shaft connected to an inner disk, a set of selection tooling to separate and organize the parts, and a heavy support structure contiguous and beneath the inner disk. The system also contains both an input and output parts conveyor. All the components permit the heavy duty centrifugal bowl parts feeder system to feed and orient the relatively heavy, rugged and small.

A centrifugal bowl parts feeder system for various relatively heavy parts feeding including automotive bearings, gears, castings and other small, rugged and heavy part1 to 6 inches in diameter and to 5 pounds apiece. The components for this heavy duty centrifugal parts feeder system embraces a feeder bowl system with a durable, high impact bowl and surface, a drive assembly and a shaft connected to an inner disk, a set of selection tooling to separate and organize the parts, and a heavy support structure contiguous and beneath the inner disk. The system also contains both an input and output parts conveyor. All the components permit the heavy duty centrifugal bowl parts feeder system to feed and orient the relatively heavy, rugged and small.

An apparatus for filling and packing particulate material into elongated containers is provided and improves consistency of the quantity and density (degree of compaction) of particulate material in each container. The apparatus may include a compressed gas assembly for providing a stream of compressed gas for increasing the velocity of flowing particulate material being provided to the containers. The apparatus may include a centrifuge assembly for providing centrifugal force which increases compaction of particulate material in each container. The apparatus may include both a compressed gas assembly and a centrifuge assembly. A method for filling and packing particulate material into elongated containers is provided and involves increasing the compaction of particulate material in each container. Such compaction may be increased by providing a compressed gas to the flow path of a stream of flowing particulate material, or by applying centrifugal force to particulate material disposed in the containers, or both.

An apparatus for filling and packing particulate material into elongated containers is provided and improves consistency of the quantity and density (degree of compaction) of particulate material in each container. The apparatus may include a compressed gas assembly for providing a stream of compressed gas for increasing the velocity of flowing particulate material being provided to the containers. The apparatus may include a centrifuge assembly for providing centrifugal force which increases compaction of particulate material in each container. The apparatus may include both a compressed gas assembly and a centrifuge assembly. A method for filling and packing particulate material into elongated containers is provided and involves increasing the compaction of particulate material in each container. Such compaction may be increased by providing a compressed gas to the flow path of a stream of flowing particulate material, or by applying centrifugal force to particulate material disposed in the containers, or both.

A filling 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 the containing elements (2);a station (SR) for filling the containing elements (2) with a dose (33) of product comprising at least a first containing seat (S1) designed to receive a dose (33) of product; a substation (ST1) for forming the dose (33) inside the first containing seat (S1) equipped 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) for feeding product; at least one rotary element (40a; 40b) having a plurality of blades (60A, 60B, 60C, 60D, 60E, 60F); and a filling chamber (61) positioned below the rotary element (40a; 40b), the rotary element (40a; 40b) being configured to create a feeding flow of product from the feed hopper (38) towards the filling chamber (61).

The invention relates to a filling system (1) for a container for storing solid particles, comprising a distribution device (5) for solid particles for receiving and selectively distributing the solid particles towards a dispensing device (7), and comprising at least one divider element (11), the dispensing device (7) comprising at least one scattering element (13) for homogeneously filling the container with solid particles, the divider element (11) being rotatably mounted about an axis substantially parallel to the direction of flow of the stream of solid particles in order to allocate any defect in the flow of the solid particles in the distribution device (5).

The invention relates to a filling system (1) for a container for storing solid particles, comprising a distribution device (5) for solid particles for receiving and selectively distributing the solid particles towards a dispensing device (7), and comprising at least one divider element (11), the dispensing device (7) comprising at least one scattering element (13) for homogeneously filling the container with solid particles, the divider element (11) being rotatably mounted about an axis substantially parallel to the direction of flow of the stream of solid particles in order to allocate any defect in the flow of the solid particles in the distribution device (5).