A system, and associated method, for launching and delivering separated food product in organized groups to a robotized packaging station for the product. The system initiates the delivery via a metered hopper of food product delivering the product to a launch V-belt that aligns the product end to end. A successive singulator belt, positioned adjacent to and receiving product from the launch belt, further organizes the product into a single file alignment. An optional separator belt may follow the singulator belt to create gaps between successive product units. The product is then delivered to a pick belt for product to be provided to the packaging robot. The system product information is from a single (per product delivery line) sensor, enabling integrated end-to-end control from hopper to robot, and a nearly continuous motion of said pick belt.

A device for sorting particulate material includes a main conveyor belt, a separation screen, a graded material conveyor, and an oversize material conveyor. The separation screen is configured to separate the material into a first portion and a second portion with a larger average particle diameter than the first portion. The graded material conveyor is positioned below the separation screen to receive the first portion of the material, and the oversize material conveyor is positioned at an end of the separation screen to receive the second portion of the material.

Disclosed are vehicles used in transporting coarse ore in a mine and systems using the same. The vehicles include a drive mechanism for moving the vehicle along a surface; an inclinable conveyor positioned atop the drive mechanism for moving the coarse ore from a loading position to a discharge position; and vertically extending walls positioned along the longitudinal sides of the conveyor. The loading position of the conveyor being offset from the vertically extending walls and the discharge position of the conveyor extends beyond the vertically extending walls so that one vehicle can be positioned with respect to another to form a continuous walled conveyor. The vehicles and systems described herein do not require rails, so they can be manoeuvered within a mine to form a network from the mine face to a coarse ore unloading area.

A veneer sheet feed device for multistage veneer sheet dryer is provided between an auto feeder including a carry-in conveyor and a roll dryer (veneer sheet dryer). The veneer sheet feed device is provided with a guide member and a feed conveyor for feeding a veneer sheet carried in from the carry-in conveyor to each conveyance unit of the roll dryer in this order from a conveyance up stream side. The veneer sheet feed device further provided with a pivot mechanism that allows a starting end of the guide member belonging to the conveyance stage immediately above the conveyance stage in which the veneer sheet is carried this time from the carry-in conveyor to pivot to a portion above a horizontal position of a roller shaft located at a terminal end of this guide member.

A conveyor comprises a first conveyor section and a second conveyor section that is foldable with respect to the first conveyor section. Skirting is movable into and out of a deployed state in which it extends along the second conveyor section. A skirting support is coupled to the skirting and is movable into and out of a deployed state in which it holds the skirting in the deployed state. Actuating means is provided for moving the skirting support. The skirting is deformable or foldable so that it does not have to be removed or fitted when the conveyor is folded or deployed, and is less susceptible to damage.

A robotic system comprising a mobile chassis, a conveyor oriented substantially parallel to a longitudinal axis of the chassis, one or more robotic arms disposed adjacent to the conveyor, and one or more cameras positioned to view at least a portion of a top surface of the conveyor is disclosed. The system uses the mobile chassis, the conveyor, and the robotic arms to load items into a truck or other container, including by using image data generated by the one or more cameras to assess a state of items on the top surface of the conveyor; determine based at least in part on the image data that an additional item is to be added to the top surface of the conveyor; and operate a robotically controlled structure to cause an item to be added to the top surface of the conveyor.

A movable material processing apparatus for handling material such as ore, gravel, rock or the like, that includes: a foldable conveyor for discharging material from the apparatus. The foldable conveyor is movable between a transport position and an operating position. The foldable conveyor includes a loading block arranged at the loading end, and a discharge block extending from the loading block towards a discharge end. The discharge block is pivotally coupled to the loading block along a first axis being perpendicular to a transport path of the foldable conveyor and parallel with a carrying surface of the foldable conveyor. The loading block is pivotally coupled to a support structure of the movable material processing apparatus along a second axis being parallel to the transport path.

A shock-absorbing conveyor boom includes a proximal portion and a distal portion, hingedly connected to the proximal portion, the proximal and distal portions supporting a laterally flexible endless conveyor belt. The distal portion is pivotal in a generally horizontal plane, and is biased toward longitudinal alignment with the proximal portion, whereby physical shock applied to the distal portion can be absorbed by lateral deflection of the distal portion.

Devices and systems are provided for improved article sortation. An example sortation device includes a height adjustable frame and a sortation table movably attached to the height adjustable frame. The sortation table defines a first end, a second end opposite the first end, and a body extending therebetween. The body defines a first surface that supports an article thereon where a location of the body between the first end and the second end pivotally attaches the sortation table with the height adjustable frame. The sortation device performs a tilt operation in which the sortation table rotates about the pivotal attachment between the second end and the height adjustable frame so as to convey the article supported by the sortation table. The height adjustable frame adjusts a vertical position of the sortation table so as to modify a vertical position at which the article is conveyed.

Embodiments of the present invention generally relate to a vehicle-mounted conveyor system, and more specifically a conveyor system that can be mounted on a short-length, non-CDL truck. The conveyor can convey a wide range of materials, including shingles, shakes (e.g., loose dirt, gravel, and rocks), tiles, underlayment, solar panels, siding, bricks, fasteners, etc. In some embodiments, the conveyor system includes a frame with a four-sided FRP tube, a belt positioned on top of the tube, cleats interconnected to the belt, belt pulleys, a motor, a material backstop, and conveyor positioning features. Conveyor positioning features include a tilting hinge a conveyor carriage, a telescopic vertical post, and a slewing drive. In some embodiments, the conveyor frame is a fiber-reinforced plastic material.