A multilevel indoor mobile gutter system for growing vegetation including at least a first level and a second level is provided. Each level may include a first level conveyor and a second level conveyor respectively. A transfer conveyor is operable to convey from the first level to the second level. A plurality of lights are positioned to emit light towards the first level and the second level. At least one gutter is operable to support a plant within. The first level conveyor transports the at least one gutter from the front end to the rear end of the first level, the transfer conveyor transfers the at least one gutter from rear end of the first level to the front end of the second level, and the second level conveyor transports the at least one gutter from the front end to the rear end of the second level.

Conveying equipment with utilization of a conveying traveling body includes a conveying traveling body which includes a plurality of trolleys in a traveling direction and a load bar connecting these trolleys and a friction drive section which is provided in the traveling path of the conveying traveling body. The load bar is provided immediately below a pair of left and right guide rails for supporting and guiding the conveying traveling body, and a friction drive wheel which is pressure-contacted with a side surface of the load bar to propel the conveying traveling body in the friction drive section is arranged below the guide rails.

A row sweep system is configured to allow a sweep pusher arm such as a roller to travel around a station such as a row-forming station of a palletizer at a substantially constant velocity. The row sweep system may include a pair of semi-concentrically continuous drive members such as inner and outer drive chain loops that are connected through inner and outer pivot arrangements to the sweep pusher arm. The inner pivot arrangement may define a slide pivot that allows for varying an effective length of a driven arm defined between the inner and outer pivot arrangements to accommodate movement of the sweep pusher arm through a corner while maintaining a substantially constant velocity.

A conveyor installation for the transportation of articles along a predefined path includes a running rail, at least one running carriage which is freely movable along the running rail, and a driven engagement device which extends at least in sections along the running rail and which includes a multiplicity of engagement elements movable along the running rail. Reliable and quiet operation is achieved in that the engagement elements are movable back and forth between two stable positions, wherein, in the first stable position, the engagement elements can be moved relative to the at least one running carriage past the running carriage without entering into engagement with the running carriage (non-engagement position), and wherein, in the second stable position, the engagement elements, during a movement relative to the at least one running carriage past the running carriage, compulsorily enter into engagement with the at least one running carriage (engagement position).

A board turner assembly may include an endless chain, first and second groups of turning arms pivotably coupled with the endless chain and disposed along opposite sides thereof, an upper guide with an inclined surface, an actuator selectively operable to move the upper guide between a resting position and an extended position, and one or more endless belts. The turning arms may be spaced apart at regular intervals that are offset on one side of the chain relative to the other. The groups of turning arms may be operated in an alternating fashion to turn selected boards to a desired orientation (e.g., wane side up). Corresponding methods and systems are also described.

The present disclosure is directed to a flighted conveyor insert for robotic picking of food products and a flighted conveyor having the same. In one forth, an insert for a flighted conveyor, such as a bucket chain, defines a forward edge configured for insertion through an aperture of a flight of the flighted conveyor such that when the insert is attached to the flight, the forward edge is positioned on a first side of the flight; and a rear edge configured such that when the insert is attached to the flight, the rear edge is positioned on a second side of the flight that is oppose to the first side of the flight.

A board turner assembly may include an endless chain, first and second groups of turning arms pivotably coupled with the endless chain and disposed along opposite sides thereof, an upper guide with an inclined surface, an actuator selectively operable to move the upper guide between a resting position and an extended position, and one or more endless belts. The turning arms may be spaced apart at regular intervals that are offset on one side of the chain relative to the other. The groups of turning arms may be operated in an alternating fashion to turn selected boards to a desired orientation (e.g., wane side up). Corresponding methods and systems are also described.

A board turner assembly may include an endless chain, first and second groups of turning arms pivotably coupled with the endless chain and disposed along opposite sides thereof, an upper guide with an inclined surface, an actuator selectively operable to move the upper guide between a resting position and an extended position, and one or more endless belts. The turning arms may be spaced apart at regular intervals that are offset on one side of the chain relative to the other. The groups of turning arms may be operated in an alternating fashion to turn selected boards to a desired orientation (e.g., wane side up). Corresponding methods and systems are also described.

Systems and methods described herein are for high throughput object handling and X-Ray screening systems. Material handling systems can adopt the proposed system to assist with the transportation of objects into X-Ray screening machines populated with lead curtains to curtail radiation emissions. The lead curtains associated with X-Ray screening machines can cause numerous problems to the safe and secure transportation of the objects. The systems and methods proposed control several aspects of the object handling to overcome the problems associated with the lead curtains. The system and methods results in the increase of system throughput, improved efficiency, reduction in line stoppages and general wear and tear. Systems can include a smart conveyor that assists objects through lead curtains using flights that are raised behind the trailing edge of the objects. The system can include smart conveyors and control systems that communicate with the X-Ray machine regarding the identity and status of the objects.

A board turner assembly may include an endless chain, first and second groups of turning arms pivotably coupled with the endless chain and disposed along opposite sides thereof, an upper guide with an inclined surface, an actuator selectively operable to move the upper guide between a resting position and an extended position, and one or more endless belts. The turning arms may be spaced apart at regular intervals that are offset on one side of the chain relative to the other. The groups of turning arms may be operated in an alternating fashion to turn selected boards to a desired orientation (e.g., wane side up). Corresponding methods and systems are also described.