A turnout for use with two transport sections includes a turnout arm rotatably supported with respect to a first axis of rotation, guided linearly movably in the direction of the first axis, and movable between two end positions. The turnout arm has a deflection surface configured such that, when the turnout arm is in a first end position, a transported item can be transferred between the first and second transport sections via the deflection surface, and the turnout arm is located beneath the transport level in a second end position such that the transported item is movable along the first transport section beyond the turnout. The turnout arm is connected for driving, via a transmission, to a single electric motor such that it is movable back and forth between the first and second end positions solely by being driven by the electric motor in two degrees of freedom.

A sorting system for a conveying apparatus is disclosed. A conveying platform of the conveying apparatus includes turning driving devices disposed side by side at a branching position on the article conveying path, and each turning driving device includes a directional motor, and a wheel hub motor module and a driving device disposed above and below the directional motor, respectively. When the article conveyed by the conveying platform enters the branching position, a control module outputs and transmits control signals to the directional motors and the wheel hub motor modules, and a rotation shaft drives a fixing frame of the wheel hub motor module to horizontally turn to a preset angular position, and the wheel hub motor module drives a roller to vertically rotate to drive the article to convey to a predetermined position along a preset path, so that a sorting operation can be completed quickly.

The disclosure relates to a method for operating a transport apparatus with a storage apparatus and to a corresponding transport apparatus with a storage apparatus. The method includes the following steps, providing the transport apparatus (1) with the storage apparatus (2) for storing transport units (3), including a plurality of transport units (3), a plurality of storage conveyors (4), and a feeding conveyor (5) to the storage conveyors. Furthermore, the transport apparatus includes an optical sensor (7) arranged at the feeding conveyor (5) and an evaluation electronics (8) connected to the optical sensor. The method also includes determining measurement data with the optical sensor (7) from a transport unit (3) moving past the optical sensor (7), and processing the measurement data obtained from the optical sensor (7) with the evaluation electronics (8) in order to determine the spatial extent in at least one dimension of the transport unit (3) moving past; and selecting a storage conveyor (4) for storing the transport unit (3) moving past on the basis of the determined spatial extent of the transport unit (3) moving past.

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.

An article carousel may be configured for use with a track system. The article carousel may include a frame and a plate configured for movement with respect to the frame. The plate may include one or more carriers configured to receive one or more trolleys. Movement of the plate may enable each carrier to be aligned with the track system. During alignment, one or more trolleys may be transferred between each carrier and the track system.

Various embodiments are directed to a diverter apparatus and method of using the same. In various embodiments, the diverter apparatus is configured to selectively direct an exemplary object traveling along a conveyor travel path to one of a plurality of adjacent conveyor locations. In various embodiments, the diverter apparatus may comprise a diverter conveyor surface, a cam follower, and a cam comprising a rotational range of motion about a cam shaft axis, the cam being physically engaged with the cam follower. Various embodiments are directed to a diverter apparatus configured to utilize a plurality of forces generated by the rotational motion of the cam to facilitate the transition of the directional configuration of the diverter conveyor surface from the first directional configuration to the second directional configuration, and, subsequently, from the second directional configuration back to the first directional configuration, again using the rotational motion of the cam.

An efficient flexible sorting device for material flow is provided. The gear A is driven by the rotating motor, and the gear A meshes with the gear B, so that the rotating body can be rotated relative to the main frame according to the sorting direction actually required. The belt motor rotates the driving shaft through the small synchronous pulley, the synchronous belt, and the large synchronous pulley. The driving shaft drives the belt to move along the tensioning roller, the driving shaft, and the guiding pulley. The relative position of the tensioning roller and the rotating body is adjusted through the bolt F, the fixing plate and the nut F to ensure that the belt is tensioned, thereby realizing the sorting process.

An efficient flexible sorting device for material flow is provided. The gear A is driven by the rotating motor, and the gear A meshes with the gear B, so that the rotating body can be rotated relative to the main frame according to the sorting direction actually required. The belt motor rotates the driving shaft through the small synchronous pulley, the synchronous belt, and the large synchronous pulley. The driving shaft drives the belt to move along the tensioning roller, the driving shaft, and the guiding pulley. The relative position of the tensioning roller and the rotating body is adjusted through the bolt F, the fixing plate and the nut F to ensure that the belt is tensioned, thereby realizing the sorting process.

A sorting system for a conveying apparatus is disclosed. A conveying platform of the conveying apparatus includes turning driving devices disposed side by side at a branching position on the article conveying path, and each turning driving device includes a directional motor, and a wheel hub motor module and a driving device disposed above and below the directional motor, respectively. When the article conveyed by the conveying platform enters the branching position, a control module outputs and transmits control signals to the directional motors and the wheel hub motor modules, and a rotation shaft drives a fixing frame of the wheel hub motor module to horizontally turn to a preset angular position, and the wheel hub motor module drives a roller to vertically rotate to drive the article to convey to a predetermined position along a preset path, so that a sorting operation can be completed quickly.

Apparatus and method for transferring an object are disclosed. The apparatus includes a transfer track comprising a plurality of conveyors for transferring an object, an upper scheduler creating a transfer path for transferring the object and creating transfer information for controlling operations of conveyors constituting the transfer path, and a plurality of lower schedulers each receiving the transfer information from the upper scheduler and each controlling the operations of the conveyors based on the transfer information.