An automatic case loader for loading product in a trailer is disclosed. A mobile base structure provides a support framework for a drive subassembly, conveyance subassembly, an industrial robot, a distance measurement sensor, and a control subassembly. Under the operation of the control subassembly, product advances through a powered transportation path to an industrial robot which places the product within the trailer. The control subassembly coordinates the selective articulated movement of the industrial robot and the activation of the drive subassembly based upon the distance measurement sensor detecting objects within a detection space, dimensions of the trailer provided to the control subassembly, and dimensions of the product provided to the control subassembly.

An automatic case loader for loading product in a trailer is disclosed. A mobile base structure provides a support framework for a drive subassembly, conveyance subassembly, an industrial robot, a distance measurement sensor, and a control subassembly. Under the operation of the control subassembly, product advances through a powered transportation path to an industrial robot which places the product within the trailer. The control subassembly coordinates the selective articulated movement of the industrial robot and the activation of the drive subassembly based upon the distance measurement sensor detecting objects within a detection space, dimensions of the trailer provided to the control subassembly, and dimensions of the product provided to the control subassembly.

A method for reorienting products includes providing one or more products in a first orientation on a surface; advancing the one or more products in the machine direction at a nominal advance rate; and retracting an end of the surface in a reverse machine direction at a nominal retract rate, such that the one or more products are advanced beyond said end into a landing region. Said end is disposed at a first elevation. The method further comprises deflecting a leading end of at least one product, such that the at least one product lands in a second orientation on a landing surface disposed in the landing region at a second elevation. The first orientation is different than the second orientation, and the first elevation is higher than the second elevation.

An apparatus for reorienting and/or stacking products includes a frame and a telescopic infeed associated with the frame. The telescopic infeed has a receiving end and a transfer end. The transfer end is disposed at a first elevation and moveable in a machine direction and in a reverse machine direction. The telescopic infeed advances one or more products in the machine direction; and a landing surface receives the one or more products. The landing surface is disposed in a landing region proximate to the transfer end and at a second elevation. The first elevation is higher than the second elevation. A deflector is operatively engageable with the transfer end, such that the deflector is capable of deflecting a leading end of at least one of the one of more products.

A method includes issuing a state change fluid into an internal passage of an additively manufactured article and causing the state change fluid to change from a first state having a first viscosity to a second state that is either solid or has a second viscosity that is higher than the first viscosity within the internal passage. The method can also include causing the state change fluid to change back from the second state to the first state and flushing the state change fluid from the internal passage to remove residual powder from the additively manufactured article.

A reception system for receiving objects comprises at least one reception device for receiving objects, a conveyor device, which has at least one conveyor belt section for conveying objects in a conveyance direction in the at least one reception device, and a sensor device, which is arranged on the at least one reception device, for detecting objects in the at least one reception device. It is provided in this case that the sensor device is designed to emit sensor signals along different signal paths over the reception device, to conclude a fill level of the reception device on the basis of an interaction of at least one of the sensor signals with objects conveyed into the reception device. In this manner, a reception system for receiving objects is provided, which enables further automation, in particular in the conveyance of objects into a reception device.

Provided is a logistics palletizing system. The logistics palletizing system includes a palletizer including a walking device, a telescopic platform device, a feeding device, a multi-stage lifting device and a feed diverting device, where the telescopic platform device is mounted above the walking device, the multi-stage lifting device and the feed diverting device are each mounted on the telescopic platform device, and the telescopic platform device is configured to drive the multi-stage lifting device and the feed diverting device to move in a preset direction relative to the walking device; and the feeding device is mounted on the multi-stage lifting device, the multi-stage lifting device is configured to drive the feeding device up and down, the feed diverting device is configured to convey materials to the feeding device, and the feeding device is configured to palletize the materials.

Provided is a logistics palletizing system. The logistics palletizing system includes a palletizer including a walking device, a telescopic platform device, a feeding device, a multi-stage lifting device and a feed diverting device, where the telescopic platform device is mounted above the walking device, the multi-stage lifting device and the feed diverting device are each mounted on the telescopic platform device, and the telescopic platform device is configured to drive the multi-stage lifting device and the feed diverting device to move in a preset direction relative to the walking device; and the feeding device is mounted on the multi-stage lifting device, the multi-stage lifting device is configured to drive the feeding device up and down, the feed diverting device is configured to convey materials to the feeding device, and the feeding device is configured to palletize the materials.