A depositor apparatus is disclosed. The depositor apparatus may include an operator assembly configured to receive an operator, a conveyor assembly coupled to the operator assembly and configured to move a plurality of product, and a multi-chute assembly coupled to the conveyor assembly and aligned with the operator assembly. The multi-chute assembly includes a plurality of chute assemblies. Each chute assembly includes a chute and a door assembly coupled to the chute and configured to selectively open and thereby drop a product into a single pouch below the door assembly. The door assembly includes a first door and a second door. The door assembly may be configured to prevent liquid or byproduct from the product to land on a seal edge of the single pouch.

According to one embodiment, a transporter includes a conveyor, a restrainer, and a restrainer moving unit. The conveyor conveys an object in a first direction. The conveyor is movable in a second direction. The restrainer is disposed corresponding to a downstream end of the conveyor in the first direction. The restrainer moving unit keeps, in a case where a position of the conveyor relative to an object-transporting destination is out of a preset range, the restrainer at a restraining position at which the restrainer restrains a movement of the object. The restrainer moving unit starts to move, in a case where the position of the conveyor relative to the object-transporting destination is in the preset range, the restrainer toward a releasing position at which the restrainer allows the movement of the object.

A transfer conveyor for food process lines has an endless conveyor belt characterized by an upper, food-product carrying run and a lower, return run. The upper, food-product carrying run defines a transit plane. The upper, food-product carrying run also extends between an intake end and a discharge end. The upper, food-product carrying run furthermore has a first pleat below the transit plane proximate the intake end and a second spaced-away pleat below the transit plane proximate the discharge end. These spaced-away pleats partitioning the upper, food-product carrying run into an intake-end span and a discharge-end span cooperatively flanking a mid-span. Wherein the transfer conveyor additionally includes one scale servicing the intake-end span of the upper, food-product carrying run and another scale servicing the discharge-end span.

A packaging dispenser, for dispensing stacks of nested trays to a packing device, has a frame, a first conveyor for conveying and supporting a first plurality of stacks of nested trays in a first level, and a second conveyor downstream of the first conveyor for receiving stacks of nested trays from the first conveyor. The packaging dispenser also includes a vertical chute underneath the second conveyor for dispensing stacks of nested trays to a packing device. The second conveyor has a pair of laterally spaced conveyor elements for supporting only lateral edge regions of a stack of nested trays. The laterally spaced conveyor elements are retractable to allow a stack of nested trays, supported thereon, to be released into the chute. The packaging dispenser can further be provided with a tray separator upstream of the chute for loosening individual trays of a stack, while keeping the trays in a stacked and nested arrangement.

According to one embodiment, a transporter includes a conveyor, a restrainer, and a restrainer moving unit. The conveyor conveys an object in a first direction. The conveyor is movable in a second direction. The restrainer is disposed corresponding to a downstream end of the conveyor in the first direction. The restrainer moving unit keeps, in a case where a position of the conveyor relative to an object-transporting destination is out of a preset range, the restrainer at a restraining position at which the restrainer restrains a movement of the object. The restrainer moving unit starts to move, in a case where the position of the conveyor relative to the object-transporting destination is in the preset range, the restrainer toward a releasing position at which the restrainer allows the movement of the object.

A packaging dispenser, for dispensing stacks of nested trays to a packing device, has a frame, a first conveyor for conveying and supporting a first plurality of stacks of nested trays in a first level, and a second conveyor downstream of the first conveyor for receiving stacks of nested trays from the first conveyor. The packaging dispenser also includes a vertical chute underneath the second conveyor for dispensing stacks of nested trays to a packing device. The second conveyor has a pair of laterally spaced conveyor elements for supporting only lateral edge regions of a stack of nested trays. The laterally spaced conveyor elements are retractable to allow a stack of nested trays, supported thereon, to be released into the chute. The packaging dispenser can further be provided with a tray separator upstream of the chute for loosening individual trays of a stack, while keeping the trays in a stacked and nested arrangement.

A conveyor device includes at least three lift columns, a lower conveyor body, and an upper conveyor body. The upper conveyor body is adjustable in its height relative to the lower conveyor body. The lift columns project at least partially above the upper conveyor body without lengthwise supports acting in the transport direction.

A transport unit, a material transfer structure and a material transfer unit for a mobile haulage arrangement are arranged for continuously conveying fragmented material in a conveying direction. A mobile haulage arrangement and a method for continuously conveying fragmented material in a conveying direction is also disclosed. The transport unit includes two ground transportation structures and a support frame suitable for fitting a belt of an enclosed belt conveyor thereunder. The ground transportation structures has at least one height adjustment device, wherein the support frame comprises at least one connector, which is arranged for connecting a support structure thereto. The height adjustment devices are arranged to vary the position of at least a portion of the support frame in relation to the ground transportation structures.

An assembly includes first and second shafts and first and second sprockets. The first shaft has a first and second ends and a first longitudinal axis of rotation. The first sprocket is attached to the first shaft proximate the first end of the first shaft. The first sprocket rotates with the first shaft. The second shaft is spaced from the first shaft by a distance, the second shaft having a first end spaced from the first end of the first shaft by the distance, a second end spaced from the second end of the first shaft by the distance, and a second longitudinal axis of rotation substantially parallel to the first longitudinal axis of rotation. The second sprocket is attached to the second shaft proximate the second end of the second shaft. The second sprocket rotates with the second shaft. The distance is adjustable.

Methods, systems, mechanisms, and/or the like are provided. According to various embodiments, there is provided a conveyor system including a track defining a track length; two or more conveyor segments, wherein each conveyor segment including: a belt; a frame configured to support the belt; a hitch configured to operably connect the two or more conveyor segments; an adjustment point, wherein each conveyor segment defines a conveyor length; and an adjustment mechanism including a plurality of surfaces, wherein at least one of the plurality of surfaces is a nonconcentric surface, wherein the nonconcentric surface is configured to operably engage with the adjustment point such that the adjustment mechanism may be rotated in a first direction to increase the conveyor length by one increment and in a second direction to decrease the conveyor length by one increment.