A portable multi-sectioned boom conveyor assembly includes a main conveyor boom section and a distal conveyor boom section. The distal conveyor boom section is hinged, relative to the main conveyor boom section, so that the distal conveyor boom section can be adjusted in order to provide material to a desired location.

A pallet conveying device includes a circulating belt provided to extend along a conveying path so as to be capable of being circulated, the circulating belt being configured to convey a pallet, a driving mechanism configured to circulate the circulating belt, and a stopper mechanism configured to stop conveying of the pallet regardless of the circulation of the circulating belt. The circulating belt has a free flow belt capable of stopping the conveying of the pallet by the stopper mechanism, and a conveying belt provided continuously to the free flow belt. A circulating speed of the conveying belt is different from a circulating speed of the free flow belt.

A pallet conveying device includes a circulating belt provided to extend along a conveying path so as to be capable of being circulated, the circulating belt being configured to convey a pallet, a driving mechanism configured to circulate the circulating belt, and a stopper mechanism configured to stop conveying of the pallet regardless of the circulation of the circulating belt. The circulating belt has a free flow belt capable of stopping the conveying of the pallet by the stopper mechanism, and a conveying belt provided continuously to the free flow belt. A circulating speed of the conveying belt is different from a circulating speed of the free flow belt.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

Systems, methods, and computer-readable media are disclosed for systems and methods for item singulation in a conveyor belt system. The singulation system may include one or more conveyor belts, one or more piston arrays disposed below the one or more conveyor belts, one or more cameras for generating image data of the conveyor belt, and a computing device for processing the image data and controlling the piston array. The singulation system may selectively actuate pistons of the piston array to achieve singulation of the items (e.g., packages) on the conveyor belt to ensure such items are separated by a certain distance. Multiple conveyor belts in series and with increasing velocities may be employed to increase separation between items.

Systems, methods, and computer-readable media are disclosed for systems and methods for item singulation in a conveyor belt system. The singulation system may include one or more conveyor belts, one or more piston arrays disposed below the one or more conveyor belts, one or more cameras for generating image data of the conveyor belt, and a computing device for processing the image data and controlling the piston array. The singulation system may selectively actuate pistons of the piston array to achieve singulation of the items (e.g., packages) on the conveyor belt to ensure such items are separated by a certain distance. Multiple conveyor belts in series and with increasing velocities may be employed to increase separation between items.

A bag bundle conveyance apparatus which conveys a bag bundle including a plurality of bags, includes: a support body which supports the bag bundle from below; a holding unit which holds the bag bundle; and a transfer drive unit which moves the holding unit in a conveyance direction, wherein the transfer drive unit moves the holding unit in the conveyance direction in a state where the bag bundle is supported from below by the support body and is held by the holding unit, in such a manner that the bag bundle is conveyed in the conveyance direction.

A bag bundle conveyance apparatus which conveys a bag bundle including a plurality of bags, includes: a support body which supports the bag bundle from below; a holding unit which holds the bag bundle; and a transfer drive unit which moves the holding unit in a conveyance direction, wherein the transfer drive unit moves the holding unit in the conveyance direction in a state where the bag bundle is supported from below by the support body and is held by the holding unit, in such a manner that the bag bundle is conveyed in the conveyance direction.

A transfer system for removing articles from trays includes a supply conveyor and a discharge conveyor A separation and transfer arrangement, including an article transport member, is interposed between a downstream end of the supply conveyor and an upstream end of the article discharge conveyor. The article transport member. Which may be a vacuum conveyor, acts on an upper end defined by each article to suspend the articles therebelow, and advances the articles from the downstream end of the supply conveyor to the upstream end of the discharge conveyor, which are at generally the same elevation. A tray transport member extends from the downstream end of the supply conveyor, and advances the trays downwardly in an upstream-to-downstream direction so that the trays are positioned below the upstream end of the discharge conveyor as the articles are deposited on the upstream end of the discharge conveyor by the article transport member.