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.

The specification discloses a nonferrous extrusion system and process providing improved transfer of extrusions from the runout table to the cooling table. The runout table includes interleaved runout rollers and transfer rollers that are vertically shiftable with respect to one another. The transfer rollers additionally are horizontally shiftable between the runout table and the cooling table. The runout table receives extrusions in a longitudinal direction. The vertical and horizontal shifting of the rollers is controlled to transfer the extrusions from the runout table to the cooling table.

A grouping station for grouping pallets includes an inbound conveyor, which is a gravity conveyor. The grouping station includes a fixed-height pairing conveyor and a grouping conveyor with three height positions for different grouping functions.

A grouping station for grouping pallets includes an inbound conveyor, which is a gravity conveyor. The grouping station includes a fixed-height pairing conveyor and a grouping conveyor with three height positions for different grouping functions.

A shoe outsole dispensing apparatus having a dispenser located above the conveyor carrying adhesive-coated shoe outsoles that are classified into left outsoles and right outsoles and that are dispensed such that the left outsoles to a first side of the conveyor and the right outsoles to a second side of the conveyor is provided. A controller controls the operation of the dispenser. As a result of the outsoles coated with adhesive being automatically classified as left and right outsoles by the dispenser, and the outsoles are dispensed on opposite sides of the conveyor carrying the outsoles, this has the result that productivity of assembling shoes greatly increased as a result of the ability to dispose outsoles very quickly compared to the prior art operation of manually sorting the outsoles, and also the occurrence of shoe defects due to manual errors may be prevented, thus enhancing shoe quality.

A shoe outsole dispensing apparatus having a dispenser located above the conveyor carrying adhesive-coated shoe outsoles that are classified into left outsoles and right outsoles and that are dispensed such that the left outsoles to a first side of the conveyor and the right outsoles to a second side of the conveyor is provided. A controller controls the operation of the dispenser. As a result of the outsoles coated with adhesive being automatically classified as left and right outsoles by the dispenser, and the outsoles are dispensed on opposite sides of the conveyor carrying the outsoles, this has the result that productivity of assembling shoes greatly increased as a result of the ability to dispose outsoles very quickly compared to the prior art operation of manually sorting the outsoles, and also the occurrence of shoe defects due to manual errors may be prevented, thus enhancing shoe quality.

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.

Embodiments of the disclosure relate to automated dolly assemblies having loading and unloading racks and traveling along a track secured to a floor. In one embodiment, an automated dolly assembly includes a moveable frame having a mobility mechanism, one or more loading racks, one or more unloading racks, a receiver arm connected to the moveable frame and a moveable pulley connected to the receiver arm. The moveable pulley has weights. The mobility mechanism is coupled to a bottom surface of the moveable frame. The one or more loading racks and the one or more unloading racks are proximate to a top surface of the moveable frame. The receiver arm is rotatably moveable between a horizontal position and a vertical position and configured to engage the automated dolly assembly with an overhead conveyor.

A mobile driving device for driving a roller conveyor includes a chassis frame, a traction device mounted to the chassis frame, wherein the traction device is adapted to move the chassis frame on a supporting surface, a first drive unit mechanically coupled to the traction device to transmit a driving force to the traction device for moving the chassis frame on the supporting surface, a roller driving device mounted to the chassis frame, wherein the roller driving device is adapted to be mechanically coupled to one or a plurality of rollers of the roller conveyor, and a second drive unit mechanically coupled to the roller driving device for transmitting a conveying force to the roller driving device.