A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

The invention relates to a device for grouping into batches at least semi-buoyant objects belonging to the group of fruit and vegetables, comprising a plurality of accumulation channels (11), a hydraulic supply device for each accumulation channel (11), a device for supplying objects to an upstream portion of each accumulation channel, a collecting channel downstream of each accumulation channel (11), a device (14) for holding/releasing the objects in each accumulation channel Each accumulation channel (11) comprises at least one bypass passage (30) for the hydraulic stream extending from at least one inlet of the bypass passage (30) located upstream of the holding/releasing device (14) to at least one outlet of the bypass passage (30) issuing downstream of the holding/releasing device (14). A bypass valve (32) allows adjustment of said part of the diverted flow.

The invention relates to a device for grouping into batches at least semi-buoyant objects belonging to the group of fruit and vegetables, comprising a plurality of accumulation channels (11), a hydraulic supply device for each accumulation channel (11), a device for supplying objects to an upstream portion of each accumulation channel, a collecting channel downstream of each accumulation channel (11), a device (14) for holding/releasing the objects in each accumulation channel Each accumulation channel (11) comprises at least one bypass passage (30) for the hydraulic stream extending from at least one inlet of the bypass passage (30) located upstream of the holding/releasing device (14) to at least one outlet of the bypass passage (30) issuing downstream of the holding/releasing device (14). A bypass valve (32) allows adjustment of said part of the diverted flow.

The present disclosure relates to apparatus for carrying articles such as fruit for sorting, and in particular though not exclusively to apparatus for singulating the articles. There is provided a singulation apparatus for an article carrying system, the apparatus comprising a flume adapted to receive a plurality of articles at a first end; a fluid inlet associated with the first end and arranged in use to direct a fluid flow to carry the received articles along the flume to a second end; wherein a parameter of the fluid flow is controlled in order to singulate the received articles along the flume. A method for singulation is also disclosed.

The present disclosure relates to apparatus for carrying articles such as fruit for sorting, and in particular though not exclusively to apparatus for singulating the articles. There is provided a singulation apparatus for an article carrying system, the apparatus comprising a flume adapted to receive a plurality of articles at a first end; a fluid inlet associated with the first end and arranged in use to direct a fluid flow to carry the received articles along the flume to a second end; wherein a parameter of the fluid flow is controlled in order to singulate the received articles along the flume. A method for singulation is also disclosed.

Connector assembly (100), system and method for converting a batch wise supply of insects (102) to a continuous supply of insects (102). A container unit is present (105) having an internal volume, a water inlet unit (106-109, 117), and a suspension outlet unit (110-113). A receiving unit (101) has a top opening (101a) arranged for receiving batch wise quantities of insects (102) and a bottom opening (114). A conveyor unit (104) has a receiving part (104b) arranged near the bottom opening (114) of the receiving unit (101), and an outlet end (119) extending into the container unit (105). By suspending the insects (102) in water it is possible to transport the suspension of insects (102) in water, e.g. to a buffer container (300).

Connector assembly (100), system and method for converting a batch wise supply of insects (102) to a continuous supply of insects (102). A container unit is present (105) having an internal volume, a water inlet unit (106-109, 117), and a suspension outlet unit (110-113). A receiving unit (101) has a top opening (101a) arranged for receiving batch wise quantities of insects (102) and a bottom opening (114). A conveyor unit (104) has a receiving part (104b) arranged near the bottom opening (114) of the receiving unit (101), and an outlet end (119) extending into the container unit (105). By suspending the insects (102) in water it is possible to transport the suspension of insects (102) in water, e.g. to a buffer container (300).