An inversion guide device is configured to guide tofu conveyed by a transfer conveyor and inverted by a turn-back portion at one end of the transfer conveyor. The inversion guide device includes an endless conveyor configured to support the tofu along a track of the turn-back portion and guide the tofu while being driven in a circulating manner.

A tofu conveying machine includes a conveyor, a support member, and an elevation device. The conveyor is configured to convey tofu placed thereon. The support member is configured to support at least a portion of the conveyor from below, and the portion allows the tofu to be placed thereon. The elevation device is configured to elevate and lower the support member.

Portioning devices and methods for portioning and conveying elongate casings stuffed with a mass. Circulating conveyor belts are arranged adjacent to each other for conveying the stuffed casings. Each conveyor belt has a conveying area which in operation is moved in a conveying direction, and a return area, wherein the stuffed casing is introduced between the conveying areas of the two conveyor belts and can then be conveyed in the conveying direction. At least one divider is arranged on each conveyor belt and projects laterally from the conveyor belt. The dividers of the adjacent conveyor belts cooperate in the conveying areas in such a way that the stuffed casing is constricted. The divider has a constriction portion for engaging with the stuffed casing and which extends, in operation, substantially at a slant relative to a plane defined as perpendicular to the conveying direction.

The present invention provides systems and methods for treating agricultural particulates, such as buds, Cannabis buds, herbs, leaves, and the like, with a treatment agent, such as steam, as the agricultural products move forward along a pathway created by a conveyer, in a chamber, enclosed by an aligned ceiling and floor, and oppositely disposed lateral walls. The exposure times to the steam, created by the intervals and lengths in which steam enters the chamber results in the elimination (destruction) and/or neutralization of the pathogens on the agricultural particulates, while the agricultural particulates remain undamaged and active.

The disclosure relates to a diversion device for a transport device for transporting products. The diversion device comprises a first element mounted to be rotatable about a first axis of rotation and a second element mounted to be rotatable about a second axis of rotation, where the axes of rotation form an angle with one another and the first and the second elements overlap in a region so that the first and the second elements enclose a diversion region. A product supplied to the diversion region can be diverted in the diversion region by rotating the first and the second elements and can exit the diversion device after having passed the diversion region due to mass inertia.

A handling system in a machine for processing containers, including a plurality of support plates circulating in a closed circuit, each support plate including one or more housings, each housing being able to hold a container, a first portion, in which the support plates circulate in a horizontal position along a first axial direction, a second portion, known as the return portion, with a second moving member configured to move the support plates in an opposite second axial direction X1B, the support plates circulating in the second portion in a vertical return orientation, the handling system including a holding pallet to selectively either unload the support plates from the second portion onto the holding pallet or for loading the support plates from the holding pallet into the second portion.

A system for dispensing an item from a dispensing apparatus is disclosed. The system is attached to a dispensing apparatus lower portion of the dispensing apparatus. The system includes a plate and a flap movably attached to the plate. The flap has a flap open position and a flap closed position. As stop extends outward from a flap first surface of a flap lower portion. A movable arm is in attachment with the flap and moves the flap between the flap open position and the flap closed position. A heating element at least proximate to the flap. An opening on the flap extends between the flap first surface and a flap second surface. A rod is substantially vertically arranged and in attachment with the plate and configured such that the rod passes through the opening when the flap moves between the flap open position and the flap closed position.

An ejector device is provided for food portions, and in particular for sausages. A food portion in a conveying area between two conveyor belts is engaged in a conveying mode and can be conveyed in the conveying direction. It is proposed that the ejector device has at least one adjustment mechanism for ejecting a food portion in an ejection area, which is so designed that the distance of the conveyor belts from each other in the conveying area can be partially varied. A method of ejecting food portions is also provided, in which it is proposed that the food portions be taken out of engagement with the conveyor belts as described above.

In a maceration conveyor assembly (10) a juice deflector (50) deflects juice around a return run of a conveyor into a trough (51). Preferably the juice deflector and trough are configured as opposed axially extending V-shaped stainless steel plates. The assembly (10) feeds into a first mill (11) of a milling tandem, and output from the mill (11) is delivered onto another conveyor and carried to the next mill in the tandem. Low pol maceration liquid is returned to the conveyor via return lines to respective distribution weirs (16) and (17). The conveyor assembly (10) includes an inlet end (20) and an outlet end (21) all supported on a supporting framework (22) so that the assembly is inclined from the inlet end (20) to the outlet end (22). An endless plate conveyor (25) comprises interconnected perforated plates (26) adapted to pivot relative to each other in chain like fashion.

Conveyor assembly for in a lying position, in X-direction from an inlet to an outlet, conveying products serially supplied in transverse series comprising: —an inlet conveyor situated on the inlet side; —a drive for driving the inlet conveyor for in X-direction conveying the transverse series of products lying thereon; —a first recording device for recording the position of the products within a transverse series, in a Y-direction that is horizontally transverse to the X-direction; —a first correction device for influencing the positions in Y-direction of the products within a transverse series; —a programmable control unit which is configured for receiving and processing the recording data from the first recording device and for controlling the first correction device, if the products within the recorded transverse series are not in the wanted position in Y-direction, —wherein the first correction device comprises a first conveyor and a first drive for it for conveying the products in X-direction, —wherein the first conveyor comprises a number of first sub-conveyors positioned next to each other for respective conveyance in X-direction of the products situated in a transverse series, according to paths that are situated next to each other, —wherein the first correction device further comprises first sub-drives for individually from each other setting the upstream ends of the first sub-conveyors in position in Y-direction, which first sub-drives can be controlled for that purpose by the control unit in response to the recording data received from the first recording device relating to the positions of the products in a transverse series in Y-direction, —wherein the first conveyor is situated downstream of the inlet conveyor.