A conveyor system includes a conveyor, a support structure, and a staging structure. The conveyor includes a proximal end and a distal end and is operable to move an item from the proximal end to the distal end. The support structure includes a first leg and a second leg. The first leg supports the proximal end of the conveyor. The second leg supports the distal end of the conveyor. The staging structure is disposed at the proximal end of the conveyor and includes a turntable operable to rotate about a first axis.

A conveyor system includes a conveyor, a support structure, and a staging structure. The conveyor includes a proximal end and a distal end and is operable to move an item from the proximal end to the distal end. The support structure includes a first leg and a second leg. The first leg supports the proximal end of the conveyor. The second leg supports the distal end of the conveyor. The staging structure is disposed at the proximal end of the conveyor and includes a turntable operable to rotate about a first axis.

Method for synchronized channelling of piece goods onto a respective receptacle of a sorting conveyor, wherein the sorting conveyor has conveying units with in each case at least one receptacle for piece goods, which at a pre-determined conveying speed run past a synchronization conveyor system, and wherein the synchronization conveyor system has a synchronization conveyor and a channelling conveyor adjoining the synchronization conveyor, whereby, whenever a fault condition of a piece good on the synchronization conveyor system is recognized, the conveyor, synchronization or channelling conveyor, on which the piece good is located, is stopped and then the conveyor transporting the piece good is reversed, until the piece good is located in a pre-determined start position, and the synchronization conveyor and the channelling conveyor are moved forward, and sorting device to carry out the method.

Method for synchronized channelling of piece goods onto a respective receptacle of a sorting conveyor, wherein the sorting conveyor has conveying units with in each case at least one receptacle for piece goods, which at a pre-determined conveying speed run past a synchronization conveyor system, and wherein the synchronization conveyor system has a synchronization conveyor and a channelling conveyor adjoining the synchronization conveyor, whereby, whenever a fault condition of a piece good on the synchronization conveyor system is recognized, the conveyor, synchronization or channelling conveyor, on which the piece good is located, is stopped and then the conveyor transporting the piece good is reversed, until the piece good is located in a pre-determined start position, and the synchronization conveyor and the channelling conveyor are moved forward, and sorting device to carry out the method.

An air-floating transfer apparatus for manufacturing insulated glazing units (IGUs). The apparatus includes a frame arranged at a certain angle on one side of a conveyor belt, a support for the frame, and an air pump supplying air to the frame. The frame comprises multiple rows of air blowers that expel air towards one surface of the glass being transported by the operation of the air pump, and between these multiple rows of air blowers, there are arranged multiple rows of exhaust support plates with exhaust holes formed at regular intervals to selectively exhaust air discharged from the air blowers. Additionally, the device includes an opening and closing unit that opens or closes the exhaust holes of the exhaust support plates depending on the thickness of the glass being transported.

An air-floating transfer apparatus for manufacturing insulated glazing units (IGUs). The apparatus includes a frame arranged at a certain angle on one side of a conveyor belt, a support for the frame, and an air pump supplying air to the frame. The frame comprises multiple rows of air blowers that expel air towards one surface of the glass being transported by the operation of the air pump, and between these multiple rows of air blowers, there are arranged multiple rows of exhaust support plates with exhaust holes formed at regular intervals to selectively exhaust air discharged from the air blowers. Additionally, the device includes an opening and closing unit that opens or closes the exhaust holes of the exhaust support plates depending on the thickness of the glass being transported.

Storage and retrieval systems demand time and space efficient approaches. Embodiments herein provide a storage system with guided plate based lifting apparatus for payload loading-unloading on storage rack. The system deploys an Automated Guided Vehicle/Autonomous Mobile Robot (AGV/AMR) mounted with multiple lifting apparatuses in between two adjacent storage racks. The racks are modified with guide plates having entry cutouts for horizontal movements and entry guides for vertical movement of lifting apparatus. Ramp provided in the guide plates at the bottom of racks ensures there is enough clearance for lifting apparatus to go inside an aisle and have smooth vertical lifting. Wheel retention mechanism guides the vertical lifting maintaining required clearance. A conveyor belt mechanism mounted to base plate of lifting apparatus consists of geared rotary motor for conveyor belt that has a forward and backward movement, enabling the lifting apparatus to load/unload the payload inside/outside the racks.

Storage and retrieval systems demand time and space efficient approaches. Embodiments herein provide a storage system with guided plate based lifting apparatus for payload loading-unloading on storage rack. The system deploys an Automated Guided Vehicle/Autonomous Mobile Robot (AGV/AMR) mounted with multiple lifting apparatuses in between two adjacent storage racks. The racks are modified with guide plates having entry cutouts for horizontal movements and entry guides for vertical movement of lifting apparatus. Ramp provided in the guide plates at the bottom of racks ensures there is enough clearance for lifting apparatus to go inside an aisle and have smooth vertical lifting. Wheel retention mechanism guides the vertical lifting maintaining required clearance. A conveyor belt mechanism mounted to base plate of lifting apparatus consists of geared rotary motor for conveyor belt that has a forward and backward movement, enabling the lifting apparatus to load/unload the payload inside/outside the racks.

An apparatus and a method is for separating liquid from a material comprising a solid fraction and a liquid fraction. The apparatus has a conveyor belt for bringing the material from a receiving portion to a discharge portion. At least a portion of the conveyor belt is provided with at least one sorption means for absorbing and/or adsorbing liquid from the material while the material is carried between the receiving portion and the discharge portion.

A conveyor belt system includes a frame with a conveyor belt driven by at least two rollers so that an upper belt functions as transport surface and a lower belt functions as return, wherein the frame has an upper segment extending substantially above the upper belt and a lower segment extending substantially under the upper belt, wherein the upper segment has at least two upper standing walls with a mutual spacing which, at least at the position of the upper belt, is smaller than the width of the conveyor belt, and wherein the lower segment has at least two lower standing walls with a mutual spacing which is greater than the width of the conveyor belt, wherein the upper belt is supported on either side by a plate extending respectively from below the upper belt to an outer side of the lower standing wall.