Aspects of a turn conveyor system are described. In one embodiment, the system includes a first conveyor and a second conveyor, where the first conveyor includes a lateral displacement mechanism configured to displace an article laterally between the first conveyor and the second conveyor. The system also includes a lateral conveyor extending between the first conveyor and the second conveyor, a sensor configured to sense a position of an article on the first conveyor, an arm positioner configured to position a turn arm to one of a plurality of locations, and control logic. The control arm can be configured to control an operation of the arm positioner to position the turn arm for rotation of the article, and control an operation of the lateral displacement mechanism based in part on the position of the article to displace the article onto the lateral conveyor and into the turn arm.

A material handling apparatus includes a first pop-up belt abutting a first cam. The first pop-up belt is configured to facilitate movement of a package between a first conveyor and a second conveyor. a separator wall abuts a second cam. The separator wall is configured to control movement of the package between the first conveyor and the second conveyor. In response to the camshaft rotating in a first direction, the first cam causes the first pop-up belt to extend out from the first conveyor. The second cam causes the separator wall to move to a first position. I in the first position, the separator wall allows the package to move from the first conveyor to the second conveyor. In response to the camshaft rotating in a second direction, the first pop-up belt move to a retracted position while the separator wall to move to a second position.

A material handling apparatus includes a first pop-up belt abutting a first cam. The first pop-up belt is configured to facilitate movement of a package between a first conveyor and a second conveyor. a separator wall abuts a second cam. The separator wall is configured to control movement of the package between the first conveyor and the second conveyor. In response to the camshaft rotating in a first direction, the first cam causes the first pop-up belt to extend out from the first conveyor. The second cam causes the separator wall to move to a first position. I in the first position, the separator wall allows the package to move from the first conveyor to the second conveyor. In response to the camshaft rotating in a second direction, the first pop-up belt move to a retracted position while the separator wall to move to a second position.

A conveyor system for conveying electrically conductive articles such as aluminum bottles or cans. The conveyor system comprises a plurality of coils below the top surface of an electromagnetic conveyor at a junction between an infeed conveyor and a discharge conveyor. The coils propagate electromagnetic flux waves that induce currents in the electrically conductive articles that force the articles to follow a conveying path from the infeed to the discharge conveyor. Dead spots on the electromagnetic conveyor can be eliminated by adjusting the coil drive waveforms. And a long electromagnetic conveyor driven by a train of narrow pulses is used to singulate electrically conductive articles.

An article transport facility includes a transport conveyor (34) and a weighing device (24), which includes a support portion (28) for supporting a container (C1) and a measuring portion (30) configured to measure a weight of the container (C1) supported by the support portion (28). The article transport facility is configured to perform a state change between a withdrawn state in which the support portion (28) is withdrawn downward relative to a transport surface (34A) and a protruding state in which the support portion (28) protrudes upward relative to the transport surface (34A) by moving the support portion (28) and the transport conveyor (34) relative to each other in a vertical direction (Z). A support surface (28A) of the support portion (28) is inclined such that one corner portion (8A) of multiple corner portions (8) located at corners of the container (C1) is lower than the other corner portions (8).

Disclosed is an object transfer device for a conveying installation, the device including a main object conveying path and a plurality of rotary drive elements, the rotary elements being configured to adopt a lowered position in which the element is situated below the main path a raised position in which the element projects above the main path in order to drive an object, the rotary drive element including drive surfaces with external diameters that vary over the length of the element, wherein the drive surfaces of the rotary drive elements have an external diameter that varies according to the angular position of the rotary element along the transfer path. Also disclosed is a conveying installation including such transfer device.

Disclosed is an object transfer device for a conveying installation, the device including a main object conveying path and a plurality of rotary drive elements, the rotary elements being configured to adopt a lowered position in which the element is situated below the main path a raised position in which the element projects above the main path in order to drive an object, the rotary drive element including drive surfaces with external diameters that vary over the length of the element, wherein the drive surfaces of the rotary drive elements have an external diameter that varies according to the angular position of the rotary element along the transfer path. Also disclosed is a conveying installation including such transfer device.

A 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. The directional motor includes a rotation shaft, and the wheel hub motor module includes a fixing frame, and a roller rotatable about a horizontal fixed axle. The fixing frame is mounted with the fixed axle, and the rotation shaft is combined with a bottom of the fixing frame. The driving device includes a control module electrically connected to the directional motor and the wheel hub motor module. When the control module outputs and transmits a control signal to the directional motor and the wheel hub motor module, the rotation shaft drives the fixing frame to horizontally turn to a preset angular position, and the roller is driven to vertically rotate to drive the article to move toward a predetermined direction.

A 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. The directional motor includes a rotation shaft, and the wheel hub motor module includes a fixing frame, and a roller rotatable about a horizontal fixed axle. The fixing frame is mounted with the fixed axle, and the rotation shaft is combined with a bottom of the fixing frame. The driving device includes a control module electrically connected to the directional motor and the wheel hub motor module. When the control module outputs and transmits a control signal to the directional motor and the wheel hub motor module, the rotation shaft drives the fixing frame to horizontally turn to a preset angular position, and the roller is driven to vertically rotate to drive the article to move toward a predetermined direction.

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.