Provided is an apparatus of automatically supplying blood collection tubes for a labeling machine, includes: a holding unit including a plurality of holding grooves in which a plurality of blood collection tubes are inserted and supported; a discharge unit configured to supply the blood collection tubes to the labeling machine; a supply unit having supply pins and configured to maintain or release positions of the blood collection tubes to be transferred to the discharge unit; a standby unit having stop pins and configured to control movements of blood collection tubes positioned next to the foremost blood collection tubes held by the supply unit; an operation unit configured to select a type and the number of blood collection tubes; and a controller configured to receive signals from the operation unit and control the supply unit and the standby unit, thus to transfer the blood collection tubes to the discharge unit.

A control system for an automated singulation system is provided. The control system detects a presence of a first item on a first conveyor and detects a presence of a second item on a second conveyor while the first item is present on the first conveyor. The second conveyor transfers items onto the first conveyor and is at a lower height than the second conveyor. The first conveyor is oriented perpendicularly with respect to the second conveyor. In response to detecting the presence of the second item, a location of the first item along a length of the first conveyor is determined. The first conveyor and the second conveyor are controlled based at least on the location of the first item.

A sorting/handling system for sorting/handling parcels or packets comprises a primary conveyor for conveying the packets in series around a looped path, at least one platform secondary conveyor fed by the primary conveyor and having a throughput rate lower than that of the primary conveyor, and a transfer unit for transfer between the primary conveyor and the secondary conveyor, which transfer unit comprises n chutes into which the packets coming from the primary conveyor fall by gravity so as to be received at the outlets on n parallel channels of an accumulation zone having movable barriers. Downstream from the accumulation zone, the system further comprises mechanical members for putting the packets into series by spacing them apart at a constant pitch, and then for transferring them to free platforms of the secondary conveyor at a rate of one packet per platform.

A temporary storage and separation device for the wheels on the track line includes a main body bracket, a rotating mechanism, a turntable, a first connection rod, a second connection rod, a third connection rod, a fourth connection rod, a first blocking lever, a second blocking lever, a third blocking lever and a fourth blocking lever. The temporary storage and separation device for the wheels makes use of the turntable to drive the four blocking levers disposed at different positions to be extended or contracted to realize separation and temporary storage of the wheels in a transfer process; and meanwhile, photoelectric switches, reversible motors and a control unit cooperate with the temporary storage and separation device for the wheels to realize reversible transfer on the wheel transfer track line.

A method for transporting manufactured products from a first production machine to a second production machine via a conveying apparatus comprises receiving, at one end of the conveying apparatus, manufactured products produced by the first production machine. The manufactured products are transported at a speed of the conveying apparatus. The manufactured products are spaced apart from each other along the conveying apparatus such that an empty space is created between each manufactured product. The first production machine is stopped in response to a stoppage of the second production machine and the conveying apparatus is actuated to a second operating state that is configured to allow a manufactured product last output by the first production machine prior to the stop to be received by the conveying apparatus in the empty space nearest to the first production machine. The conveying apparatus is then stopped.

A conveying system employs independently controlled flights. The flights are controlled separately from a conveying surface using a linear transport system. The linear transport system allow the position of the flights to be controlled based on a parameter, such as the length of a conveyed object. The flights are pivotally mounted to a mover of the linear transport system and can pivot relative to the conveying surface to allow the flights to fit in a space between an end of carryway and a receptacle.

Systems and methods for providing gaps in article or package processing. In some embodiments, the system can include a conveying path along which a first advanced article and a second advanced article can be advanced. The system can further include a first stop location and a second stop location. The first stop location can include movable fingers that are configured to raise to stop the advance of the articles and then lower at specific times to allow the articles to advance with specific distances between the articles. Additionally, the system can include a paddle that also raises and lowers. The paddle lowers to stop an advancing article again, and in doing so, front-end registers the article. Then the paddle can raise to allow the package to advance again along the conveyor.

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.

Device for controlling a flow of cardboard tubular cores (1) adapted to produce logs of paper material and intended to be stored in a collection point (2) placed downstream of the same device, including more conveyors (5; 7) each of which is adapted for carrying the said tubular cores (1) up to the entry point (6D) of a respective guide channel (6) having an entry point (6D) and an exit point (6F), interception devices (8) adapted for intercepting the tubular cores (1), the interception devices being arranged and acting on each of the channels (6) to adjust the flow of the tubular cores through the respective exit points (6F), and programmable device (UE) adapted for activating and deactivating the interception device (8). The interception devices (8) are adapted to selectively form two nips (N1, N2) inside the guide channel (6), the nips (N1, N2) being selectively formed at a predetermined distance from each other.

A conveying system employs independently controlled flights. The flights are controlled separately from a conveying surface using a linear transport system. The linear transport system allow the position of the flights to be controlled based on a parameter, such as the length of a conveyed object. The flights are pivotally mounted to a mover of the linear transport system and can pivot relative to the conveying surface to allow the flights to fit in a space between an end of carryway and a receptacle.