A system for loading containers onto a transport structure includes a slip sheet configured to receive the containers. The slip sheet is moveable from a first position in which the containers are received onto the slip sheet and a second position in which the slip sheet is vertically above the transport structure. A first brace member is adjacent to the second end of the slip sheet and a second brace member is adjacent to the first end of the slip sheet when the slip sheet is in the second position such that when the slip sheet is moved in a second direction from the second position to the first position the second brace member is configured to prevent the containers from moving in the second direction with the slip sheet and the containers vertically fall off the slip sheet onto the transport structure.

A conveying device includes a workpiece pressing member and a switching member. The workpiece pressing member is able to move along a conveyance path when a mobile body moves, and also moves a workpiece downstream of the conveyance path by moving downstream of the conveyance path while pressing the workpiece. The switching member is able to move along the conveyance path as the mobile body moves, and switches between an engaged state and a non-engaged state with the workpiece pressing member depending on whether the movement is in downstream and upstream directions. When the switching member moves downstream, the workpiece pressing member is able to press the workpiece, and, when the switching member moves upstream, the workpiece pressing member is able to avoid coming into contact with the workpiece.

A brake mechanism for a pallet storage system includes a leg defining a stop surface and movable between a stop position, wherein the stop surface is disposed within a travel path of a pallet traveling along a pallet storage system, and a go position, wherein the stop surface is displaced from the travel path. A biasing mechanism having a spring force is coupled to the leg and configured to bias the leg towards the stop position such that the spring force is required to be overcome to permit the leg to move from the stop position to the go position. Pallet storage systems including at least one of such brake mechanisms are also provided.

A loading device is provided for portioning food products into trays, including a feeder belt for receiving and conveying food products into a transfer zone; a conveyor belt for conveying the trays in conveying direction into a loading zone below the transfer zone; and a portioning unit for portioning the food products into the trays. The portioning unit has a first and a second constraining mechanism which are configured to be driven, in each case parallel to the conveying direction and orthogonally to the conveying direction, so as to come sequentially into contact with a tray being moved into the loading zone, in such a way that the movement of the tray is constrained at at least one position in the loading zone. A portioning unit and a method of operating a loading device are also provided.

A stopping device for a conveying process of an object and a conveyor system are provided. The stopping device includes: a pedestal; a driving structure rotatably connected to the pedestal through a first spindle; a stopping arm rotatably connected to the pedestal through a second spindle; and a linkage rod connected between the driving structure and the stopping arm. The driving structure is configured to drive the linkage rod to move, so that the linkage rod drives the stopping arm to rotate about the second spindle between a first position and a second position.

An automated storing and picking system for packaged goods is provided. The system includes storage shelves with storage areas, at least one storage and retrieval apparatus, and at least one conveyor belt. At least one blocking device having a barrier is arranged downstream of a receiving section of the conveyor belt. A control device controls the storage and retrieval apparatus and the conveyor belt such that the packaged goods belonging to a first pack are transported to a first dispensing location and the packaged goods belonging to a subsequent pack are transported to a second dispensing location and/or are subsequently transported to the first dispensing location, such that the first pack lies downstream of the subsequent pack on the conveyor belt. The control device controls the blocking device to accumulate the first pack behind the barrier, release the first pack for transport, and to then accumulate the subsequent pack behind the barrier.

A brake mechanism for a pallet storage system includes a leg defining a stop surface and movable between a stop position, wherein the stop surface is disposed within a travel path of a pallet traveling along a pallet storage system, and a go position, wherein the stop surface is displaced from the travel path. A biasing mechanism having a spring force is coupled to the leg and configured to bias the leg towards the stop position such that the spring force is required to be overcome to permit the leg to move from the stop position to the go position. Pallet storage systems including at least one of such brake mechanisms are also provided.

A method for providing a predetermined number of contiguous stored elements (A,B,C,D,E,F,G), that is which are touching each other, and in a line (2) in a supply chute (3) along which the line (2) may advance, these elements being essentially spheroidal, such as fruit, wherein initially the first element (A) in the line (2) is retained by retention means (4), comprising the operation of counting, by means of the emission and detection of a steady beam (6) of light, the signal variations produced in said detection by the line (2) advancing, specifically by the passage of the spaces between two consecutive elements in the line (2) through the detection beam (6), aiming the beam (6) at the gaps (7) that necessarily will be formed in the line (2) between two consecutive elements even if they are contiguous, due to the effect of said elements (A,B,C,D,E,F,G) being spheroidal.

A conveyor for conveying loads along a conveying direction has a frame and a plurality of rollers mounted in the frame. The conveyor also has a trigger pedal movable between an idle position and an engaged position, and a separator stop movable between a retracted position and a protruding position. A coupling is between the trigger pedal and the separator stop for transmitting to the separator stop a movement applied to the trigger pedal. A manual release mechanism also is provided. The frame has an end portion positioned after the plurality of rollers in the conveying direction. The manual release mechanism is arranged in the end portion and the trigger pedal is arranged within the end portion. The coupling has a knee-joint mechanism and is configured to pull the separator stop in the protruding position and to push the separator stop in the retracted position.

A first sheet product 1 is gripped between an additional conveyor 2 and a feeding conveyor 3 at a downstream end of the additional conveyor 2. Subsequently, subsequent sheet products 1 are moved back by the feeding conveyor 3 to be separated from the first sheet product 1. Subsequently, the first sheet product 1 is supplied by the additional conveyor 2.