A retrievable core sampling assembly for latching to or relative to a rotatable tubular housing of a core sampling apparatus to allow the capture and retrieval of a core from a subterranean formation, the assembly comprising or including: a core catcher barrel for a core, the barrel being rotationally isolated from the tubular housing and cooperable with a core taking bit coupled to the rotatable tubular housing to retain a core, and a hammer for providing impact to the core taking bit along a longitudinal impact path that is or is substantially decoupled from the core catcher barrel so that when latched, rotation and impact of the core taking bit captures and passes core material from the formation to the core catcher barrel in manner that isolates a core in the core catcher barrel from rotation and impact forces.

An inner core barrel assembly incorporates an inner core tube. A body is connected to the inner core tube with a coupling mechanism. The coupling mechanism is configured to maintain a fixed rotational orientation with the inner core tube. The body includes a flow path for liquid within the inner core tube to flow as the inner core barrel assembly descends through a drill string. a core orientation system is contained within the body and positioned within the inner core tube.

An inner core barrel assembly incorporates an inner core tube. A body is connected to the inner core tube with a coupling mechanism. The coupling mechanism is configured to maintain a fixed rotational orientation with the inner core tube. The body includes a flow path for liquid within the inner core tube to flow as the inner core barrel assembly descends through a drill string. a core orientation system is contained within the body and positioned within the inner core tube.

The long-reach drilling machine is for exploration drilling and core sample collecting and comprises a drill string comprising a variable number of hollow drill rods, a drill bit installed at a first end of the drill string, a ground-resting drill base for installation outside a borehole, a mast attached to the drill base, a drill head installed on and movable along the mast and to which a second end of the drill string is connected, the drill head rotating the drill string, a core tube movable within the drill string between a first position at the drill string first end for receiving a core sample and a second position at the drill string second end, an borehole core tube displacer capable of displacing the core tube between its first and second positions, and an external core tube displacer, distinct from the borehole core tube displacer, comprising a frame that is fixed relative to the drill string, a tube prehension device mounted to the frame and capable of traction on the core tube, and an actuator mounted to the frame and selectively actionable to activate the tube prehension device for allowing the core tube to be displaced relative to the frame beyond its second position.

The long-reach drilling machine is for exploration drilling and core sample collecting and comprises a drill string comprising a variable number of hollow drill rods, a drill bit installed at a first end of the drill string, a ground-resting drill base for installation outside a borehole, a mast attached to the drill base, a drill head installed on and movable along the mast and to which a second end of the drill string is connected, the drill head rotating the drill string, a core tube movable within the drill string between a first position at the drill string first end for receiving a core sample and a second position at the drill string second end, an borehole core tube displacer capable of displacing the core tube between its first and second positions, and an external core tube displacer, distinct from the borehole core tube displacer, comprising a frame that is fixed relative to the drill string, a tube prehension device mounted to the frame and capable of traction on the core tube, and an actuator mounted to the frame and selectively actionable to activate the tube prehension device for allowing the core tube to be displaced relative to the frame beyond its second position.

A core extracting apparatus and method is provided. The annular core extracting apparatus may be dimensioned so as to be lowered into the core groove circumscribing a drilled core. The core extracting apparatus has a cylindrical outer casing encasing a cylindrical inner grabber in a release condition, wherein the inner grabber is adapted to move from the release condition to a gripping condition as the outer casing is lifted from the core groove. The inner grabber provides a plurality of peripheral fingers, each finger providing a wedge along its outer surface, wherein the release condition each wedge nests in a taper provided by the outer casing so that when the inner grabber moves to the gripping condition the wedge interfaces with the outer casing to urge the fingers inward, gripping the core and extracting it from the drilling hole.

A multifunctional directional wireline core drilling device includes an outer assembly, an inner assembly, a core unjamming mechanism, and a directional coring mechanism. According to the present disclosure, wireline core drilling can be fulfilled; in addition, the directional coring mechanism can truly restore the strike and azimuth of a stratum facture by obtaining a core with an azimuth. By controlling the flow of drilling fluid during drilling, the core unjamming mechanism can effectively reduce core abrasion, generated due to jamming in the core barrel, during drilling, so that the core recovery of a fractured stratum prone to causing core jamming and the drilling efficiency are greatly improved.

A multifunctional directional wireline core drilling device includes an outer assembly, an inner assembly, a core unjamming mechanism, and a directional coring mechanism. According to the present disclosure, wireline core drilling can be fulfilled; in addition, the directional coring mechanism can truly restore the strike and azimuth of a stratum facture by obtaining a core with an azimuth. By controlling the flow of drilling fluid during drilling, the core unjamming mechanism can effectively reduce core abrasion, generated due to jamming in the core barrel, during drilling, so that the core recovery of a fractured stratum prone to causing core jamming and the drilling efficiency are greatly improved.

A sealed pressured horizontal directional drilling continuous coring device for engineering geological investigation includes an outer tube assembly and an inner tube assembly matching the outer tube assembly. The outer tube assembly includes a single-wall drill pipe and a dual-wall drill pipe assembly. The inner wall of the dual-wall drill pipe assembly is sequentially provided with a bullet stop head, a bullet room, a suspended seat ring, a positioning inner lock, a positioning outer lock, a first centralizing ring, a lock ring seat and a drill from top to bottom. The inner tube assembly includes a spear head, a first sealing component, a bullet positioning mechanism, a recovery pipe, a second sealing component, an in-place reporting mechanism, a core blockage alarm mechanism, a single-action mechanism, a guiding mechanism, a buffer mechanism, an adjustment mechanism, a core tube and a core clamping mechanism.

A downhole device delivery and drive transfer system includes a sub which is arranged to attach to a drill string and a tool which is configured to enable it to travel through the drill string and releasably couple to the sub. The sub and the tool are arranged so that when they are releasably coupled to each other torque imparted to the drill string is transferred by the sub to the tool. The tool is arranged to carry one or more devices for performing one or more downhole functions such as core drilling, hole reaming or wedge placement for directional drilling. The system also has a guide mechanism that operates between the sub and the tool to guide the tool to a known rotational orientation relative to the sub as the tool travels into the sub. A fluid control system controls the flow of fluid through the tool through a downhole outlet and and a plurality of ports intermediate opposite ends of the tool.