A doser assembly includes a hopper assembly configured to receive filler material, a vibration transmission assembly coupled to the hopper assembly, and a paddle in a hopper opening that extends through the hopper assembly. The vibration transmission assembly includes a shaft that is configured to rotate around a central rotation axis, an eccentric that is fixed to the shaft and has a center that is radially offset from the central rotation axis, a connecting rod that is pivotably connected to the center of the eccentric, and a bracket that is pivotably connected to the connecting rod. A first end of the paddle is pivotably coupled to the hopper assembly at a paddle pivot joint. The paddle is fixed to the bracket of the vibration transmission assembly separately from the hopper assembly. The vibration transmission assembly is configured to cause the paddle to reciprocatingly pivot around the paddle pivot joint.

A doser assembly includes a hopper assembly configured to receive filler material, a vibration transmission assembly coupled to the hopper assembly, and a paddle in a hopper opening that extends through the hopper assembly. The vibration transmission assembly includes a shaft that is configured to rotate around a central rotation axis, an eccentric that is fixed to the shaft and has a center that is radially offset from the central rotation axis, a connecting rod that is pivotably connected to the center of the eccentric, and a bracket that is pivotably connected to the connecting rod. A first end of the paddle is pivotably coupled to the hopper assembly at a paddle pivot joint. The paddle is fixed to the bracket of the vibration transmission assembly separately from the hopper assembly. The vibration transmission assembly is configured to cause the paddle to reciprocatingly pivot around the paddle pivot joint.

A dosing device for feeding an infusion product includes: a tower for containing loose infusion product, tubular channels for feeding and discharging the product, first containers for receiving the product from the channels; each channel actuated by an actuation device for releasing a quantity of product; a fixed platform supporting the first containers, a plurality of elements for weighing the product in the containers and supported by the platform; a control unit in communication with each actuating device and with each weighing element, to detect the value measured by each element and actuate the corresponding channel until reaching the quantity of product. Reference elements are independent of the weighing elements are associated with the platform each supporting a weight of predetermined value; each reference element is in communication with the control unit to transmit a signal equivalent to the measured value of the reference weight by the reference element.

A dosing device for feeding an infusion product includes: a tower for containing loose infusion product, tubular channels for feeding and discharging the product, first containers for receiving the product from the channels; each channel actuated by an actuation device for releasing a quantity of product; a fixed platform supporting the first containers, a plurality of elements for weighing the product in the containers and supported by the platform; a control unit in communication with each actuating device and with each weighing element, to detect the value measured by each element and actuate the corresponding channel until reaching the quantity of product. Reference elements are independent of the weighing elements are associated with the platform each supporting a weight of predetermined value; each reference element is in communication with the control unit to transmit a signal equivalent to the measured value of the reference weight by the reference element.

Apparatus and method for processing open-mouth bags comprising a handling device for exchanging open-mouth bags with a rotary packaging machine. The handling device comprises a rotating device that circulates around a rotation axis of the handling device and is provided with two gripping arms for gripping the open-mouth bags. The two gripping arms are disposed for separate, longitudinal movement transverse to the rotation axis of the rotating device to enable longitudinal movement of the gripping arms relative to the rotating device in addition to the circulating motion around the handling device.

Apparatus and method for processing open-mouth bags comprising a handling device for exchanging open-mouth bags with a rotary packaging machine. The handling device comprises a rotating device that circulates around a rotation axis of the handling device and is provided with two gripping arms for gripping the open-mouth bags. The two gripping arms are disposed for separate, longitudinal movement transverse to the rotation axis of the rotating device to enable longitudinal movement of the gripping arms relative to the rotating device in addition to the circulating motion around the handling device.

A system and a method for gently loading, transporting and unloading frangible products using totes is provided. The system includes a loading station at a first location, an unloading station at a second location and a plurality of totes for use in storing the frangible products for transportation from the first location to the second location. The totes include an interior space that is upwardly curved and concave for gently receiving the frangible products therein as they are laterally discharged off of a lateral discharge portion of the reciprocating conveyor. Two or more totes can be sequentially loaded along the lateral discharge portion of the reciprocating conveyor using backpressure caused by accumulation of frangible product along the edge of the lateral discharge portion of the reciprocating conveyor to redirect incoming frangible products towards a downstream section of the lateral discharge portion of the reciprocating conveyor.

According to embodiments of the present invention, a material transfer station provides a base frame equipped with a table member, a container tipper, an operator interface, and a connection to a power source. In operation, a destination container is positioned beneath the table member, and the container tipper holds a supply container. Solid matter may be conveyed from the supply container into the destination container through an opening in the table member. Modules may be attached to provide additional functionality, such as a receiving module, a containment module, a vibratory screener, a flexible film isolator, and a nitrogen purge system.

According to embodiments of the present invention, a material transfer station provides a base frame equipped with a table member, a container tipper, an operator interface, and a connection to a power source. In operation, a destination container is positioned beneath the table member, and the container tipper holds a supply container. Solid matter may be conveyed from the supply container into the destination container through an opening in the table member. Modules may be attached to provide additional functionality, such as a receiving module, a containment module, a vibratory screener, a flexible film isolator, and a nitrogen purge system.

The dispenser disclosed herein serves a single serving of a powdered nutrient contained within a container having multi-servings of the powdered nutrient. The dispenser has a metering device that operates as a ball valve or guillotine to dispense a single serving of the powdered nutrient into a water container. The dispenser also has a support surface that can be lowered and raised back up in order to fit a water container under the metering device and a distal tip of the metering device into a mouth of the water container so that no powdered nutrient spills out of the water container during transfer of the powdered nutrient from the metering device to the water container.