An apparatus and method for filling a container with fragile fruit involving submerging the container in water to better distribute the fragile fruit within the container. The container may be filled with fragile fruit either before or after being submerged in water. The fragile fruit may be transported using a stream of water or other suitable fluid medium.

An apparatus and method for filling a container with fragile fruit involving submerging the container in water to better distribute the fragile fruit within the container. The container may be filled with fragile fruit either before or after being submerged in water. The fragile fruit may be transported using a stream of water or other suitable fluid medium.

An apparatus configured to provide portioned instances of a compressible material includes a channel assembly, a gas source, a cutting assembly, and a discharge assembly. The channel assembly holds a bulk instance of the material extending through upper and lower channels of a continuous channel. The gas source supplies gas to compress the bulk instance. The cutting assembly moves in relation to the channel assembly to isolate the upper and lower channels, severing upper and lower material portions of the bulk instance. The discharge assembly directs gas to impinge on a lower face of the cutting assembly to discharge the lower material portion as a portioned instance. The channel assembly may be moveable, where operation of the gas source, cutting assembly, and/or discharge assembly are based on moving the channel assembly between various positions. The gas supply may be controlled based on a determined property of the portioned instance.

An apparatus configured to provide portioned instances of a compressible material includes a channel assembly, a gas source, a cutting assembly, and a discharge assembly. The channel assembly holds a bulk instance of the material extending through upper and lower channels of a continuous channel. The gas source supplies gas to compress the bulk instance. The cutting assembly moves in relation to the channel assembly to isolate the upper and lower channels, severing upper and lower material portions of the bulk instance. The discharge assembly directs gas to impinge on a lower face of the cutting assembly to discharge the lower material portion as a portioned instance. The channel assembly may be moveable, where operation of the gas source, cutting assembly, and/or discharge assembly are based on moving the channel assembly between various positions. The gas supply may be controlled based on a determined property of the portioned instance.

A connection device for connecting an outlet opening of a downpipe to an upward-facing inlet opening of a container, comprising a body with a continuous opening from an upper side to an underside of the body, wherein the body is designed in such a way that it is suitable to before being connected by its upper side to the outlet opening of the downpipe via a flexible connection element, in particular via a compensator, in such a way that a connection is created between the outlet opening of the downpipe and the opening of the body. The connection device also comprises a coupling device which is attached to the underside of the body and which is suitable for creating a sealed connection between the opening of the body and the inlet opening of the container when the body rests on an upper side of the container.

A connection device for connecting an outlet opening of a downpipe to an upward-facing inlet opening of a container, comprising a body with a continuous opening from an upper side to an underside of the body, wherein the body is designed in such a way that it is suitable to before being connected by its upper side to the outlet opening of the downpipe via a flexible connection element, in particular via a compensator, in such a way that a connection is created between the outlet opening of the downpipe and the opening of the body. The connection device also comprises a coupling device which is attached to the underside of the body and which is suitable for creating a sealed connection between the opening of the body and the inlet opening of the container when the body rests on an upper side of the container.

A system including a flume. The flume can include a fluid and be configured to receive crops. The system also can include crop selectors each sized to move the crops individually from the flume into a scale. The system additionally can include the scale. The scale can be configured to weigh the crops while the crops are in the scale. The system further can include a container carrier configured to (i) hold a container that is submerged in the fluid while the crops are dumped from the scale into the container and (ii) lift the container out of the fluid to allow the fluid to drain from the container while the container holds the crops. Other embodiments are described.

A system including a flume. The flume can include a fluid and be configured to receive crops. The system also can include crop selectors each sized to move the crops individually from the flume into a scale. The system additionally can include the scale. The scale can be configured to weigh the crops while the crops are in the scale. The system further can include a container carrier configured to (i) hold a container that is submerged in the fluid while the crops are dumped from the scale into the container and (ii) lift the container out of the fluid to allow the fluid to drain from the container while the container holds the crops. Other embodiments are described.

A plant for processing capsules for preparing beverages includes at least one rail along which a plurality of processing stations is arranged for the capsules, in each of which on each capsule preset processing is performed, in which conveying elements, each of which conveys a capsule, are movable along the rail, each conveying element being movable along the rail independently of the other conveying elements. A method for processing capsules for preparing beverages, in a processing plant for processing capsules for beverages including at least one rail along which a plurality of processing stations is arranged for the capsules, in each of which on each capsule preset processing is performed, wherein conveying elements, each of which conveys a capsule, are movable along the rail the movement speed of each conveying element is adjustable independently of the movement speed of the other conveying elements and the gap between two adjacent conveying elements, during the motion of the conveying elements, can be adjusted independently of the gap between other conveying elements that are adjacent to one another.

A plant for processing capsules for preparing beverages includes at least one rail along which a plurality of processing stations is arranged for the capsules, in each of which on each capsule preset processing is performed, in which conveying elements, each of which conveys a capsule, are movable along the rail, each conveying element being movable along the rail independently of the other conveying elements. A method for processing capsules for preparing beverages, in a processing plant for processing capsules for beverages including at least one rail along which a plurality of processing stations is arranged for the capsules, in each of which on each capsule preset processing is performed, wherein conveying elements, each of which conveys a capsule, are movable along the rail the movement speed of each conveying element is adjustable independently of the movement speed of the other conveying elements and the gap between two adjacent conveying elements, during the motion of the conveying elements, can be adjusted independently of the gap between other conveying elements that are adjacent to one another.