The present invention relates to a mining system. The system includes a continuous miner for forming plunge tunnels from a roadway. A flexible conveyor system is coupled to the continuous miner for conveying mined material from the plunge tunnels. A controller is provided for controlling the continuous miner and the flexible conveyor system to travel along a predetermined path. Advantageously, the controller may control the drive and steering (including turning maneuvers) of the continuous miner and each conveyor module of the flexible conveyor system along the predetermined path to avoid striking either any adjacent equipment (e.g. another conveyor), or the ‘ribs’ of a plunge tunnel being mined.

A distributed coal cutting device for a Longwall face of a coal mine includes coal cutting units, where each coal cutting unit includes one coal cutting machine and two hydraulic supports, the two hydraulic supports are arranged side by side, the arrangement direction of the two hydraulic supports is parallel to the coal wall of the Longwall face, and the coal cutting machine is connected with one of the hydraulic supports. According to the device, multiple coal cutting machines are used for simultaneously carrying out coal cutting operation, and single-point coal cutting is changed into multiple-point simultaneous coal cutting, so that the coal cutting production capacity and the production efficiency are greatly improved. The multiple coal cutting machines can derive multiple control modes, so that the production flexibility and adaptability are improved.

The present invention relates to a mining system. The system includes a continuous miner for forming plunge tunnels from a roadway. A flexible conveyor system is coupled to the continuous miner for conveying mined material from the plunge tunnels. A controller is provided for controlling the continuous miner and the flexible conveyor system to travel along a predetermined path. Advantageously, the controller may control the drive and steering (including turning maneuvers) of the continuous miner and each conveyor module of the flexible conveyor system along the predetermined path to avoid striking either any adjacent equipment (e.g. another conveyor), or the ‘ribs’ of a plunge tunnel being mined.

The present invention relates to a mining system. The system includes a continuous miner for forming plunge tunnels from a roadway. A flexible conveyor system is coupled to the continuous miner for conveying mined material from the plunge tunnels. A controller is provided for controlling the continuous miner and the flexible conveyor system to travel along a predetermined path. Advantageously, the controller may control the drive and steering (including turning maneuvers) of the continuous miner and each conveyor module of the flexible conveyor system along the predetermined path to avoid striking either any adjacent equipment (e.g. another conveyor), or the ‘ribs’ of a plunge tunnel being mined.

The present invention relates to a flexible conveyor system. The system includes a supply conveyor module and a receiver conveyor module. A hitch mechanism is provided for pivotally coupling the supply conveyor module to the receiver conveyor module about a pivot axis so that the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis. Advantageously, the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis which impedes spillage between the adjacent conveyor modules on very tight corners.

The present invention relates to a flexible conveyor system. The system includes a supply conveyor module and a receiver conveyor module. A hitch mechanism is provided for pivotally coupling the supply conveyor module to the receiver conveyor module about a pivot axis so that the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis. Advantageously, the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis which impedes spillage between the adjacent conveyor modules on very tight corners.

A machine includes a frame having a first frame member selectively coupled to a second frame member. The machine also includes an alignment and connection assembly including a protrusion coupled to the first frame member. The protrusion is receiveable within the second frame member to align the first frame member with the second frame member. The alignment and connection assembly also includes a fastener coupled to the protrusion. The fastener is operable to secure the first frame member relative to the second frame member.

The present invention relates to a system for recovering a continuous miner arrangement from a tunnel. The system includes a coupler for coupling the continuous miner arrangement to a pulling apparatus. The pulling apparatus pulls the continuous miner arrangement from the tunnel. Advantageously, the pulling apparatus may pull the continuous miner arrangement from the tunnel, either fully or partially until the continuous miner arrangement may once again retract from the tunnel under its own power.

A conveyor module 1, adapted to be releasably attached to at least one other conveyor module 1 to form a conveyor assembly 15. Each conveyor module 1 includes a substantially longitudinal main frame 4, said main frame 4 being adjustable between a first position (FIG. 3), in which said module 1 is compacted for transportation, and, a second position (FIG. 4), in which said module 1 is expanded for conveyor operation. A plurality of support legs 17 is provided to support said conveyor module 1 upon a substrate surface, each support leg being adjustable to facilitate adjustable alignment of said module 1. Conveyor componentry 12 is housed substantially within said main frame 1. The conveyor module 1 is preferably formed from or built to standardised shipping container (ISO) specifications.

A conveyor module (1), adapted to be releasably attached to at least one other conveyor module (1) to form a conveyor assembly (15). Each conveyor module (1) includes a substantially longitudinal main frame (4), said main frame (4) being adjustable in between a first position (FIG. 3), in which said module (1) is compacted for transportation, and, a second position (FIG. 4), in which said module (1) is expanded for conveyor operation. A plurality of support legs (17) is provided to support said conveyor module (1) upon a substrate surface, each support leg being adjustable to facilitate adjustable alignment of said module (1). Conveyor componentry (12) is housed substantially within said main frame (1). The conveyor module (1) is preferably formed from or built to standardised shipping container (ISO) specifications.