A drill bit includes a drill bit head, a multi-strand helix made up of three or more helix ribs, and a shank end along a drill bit axis. The multi-strand helix is made up of a conveyance area, a helix gradient, and a pitch. The helix ribs extend parallel to the drill bit axis in a first area adjacent to the drill bit head and a second area adjacent to the shank end.

The present disclosure relates to a soil displacement drill comprising a drill pipe; a widening at one end of the drill pipe that is provided with (1) a screw blade for screwing the drill into the substrate, and (2) an outlet opening for the passage of material that is introduced for forming the foundation pile; and a flap that is movable between a first position for allowing unhindered screwing of the drill into the substrate and a second position for preventing the material from entering a screw groove. The screw groove is formed in the substrate by the screw blade during unscrewing of the drill from the substrate. The disclosure further relates to a method for forming a smooth foundation pile using such a drill.

The invention relates to reamers used in downhole oil well drilling operations, particularly in reaming while drilling applications. Presented is a reamer having an interior channel which runs along an elongate axis of the entire body of the reamer, wherein there are openings along both ends of the reamer, exposing the interior channel. Additionally presented in the reamer are a plurality of paths extending parallel to the interior channel along the exterior of the body of the reamer, and running in a helical pattern along the entirety of the exterior of the body of the reamer. Disposed within the helical paths are a plurality of cutting inserts, which cutting inserts are enabled to provides a uniform cutting surface against a well bore, which preferably improves cutting action and reduces strain on the reamer.

Systems and methods presented herein include sidewall coring tool assemblies used to return core plugs of rock from a sidewall of a wellbore as part of a data collection exercise for exploration and production of hydrocarbons. A coring bit and a coring shaft of the present disclosure allow space for cuttings to move away from the bit face when drilling into a formation. In addition, certain embodiments include a plurality of inlets disposed circumferentially on an external surface at a first axial end of the coring shaft, a plurality of internal grooves disposed on an internal surface of the coring shaft, and/or a plurality of fins disposed on the external surface to direct flow of drilling and debris away from the coring bit. In addition to providing more space for cuttings to move away from the coring bit, the torque needed to drive the bit is lessened as the surface area of the bit contacting or engaging the formation is reduced.

A drilling device includes a drill basic body and a conveying helix which runs helically around the drill basic body. The conveying helix is subdivided into a plurality of conveying helix segments that are disposed next to one another. The conveying helix segments may be disposed loosely next to one another.

A system and method for automatically digging a hole using a digger assembly on the end of a boom. A controller is configured to receive signals from a plurality of sensors distributed throughout the digging system, along the boom and the digger assembly. Based on the information from the sensors, the controller automatically adjusts one or more parameters of the digging system while digging the hole. The system and method prevent corkscrewing of the digging member, while also allowing for a specific hole depth and hole angle to be dug. Specifically, the system allows for easily and accurately digging a plumb hole.

A system and method for automatically digging a hole using a digger assembly on the end of a boom. A controller is configured to receive signals from a plurality of sensors distributed throughout the digging system, along the boom and the digger assembly. Based on the information from the sensors, the controller automatically adjusts one or more parameters of the digging system while digging the hole. The system and method prevent corkscrewing of the digging member, while also allowing for a specific hole depth and hole angle to be dug. Specifically, the system allows for easily and accurately digging a plumb hole.

A hand-actuated earth auger of the type used to drill water wells, for taking soil samples, or other similar purposes is disclosed. It consists of a spiral or bladed earth drill, extended with one stem rod consisting of one or more stem segments, and one tee handle mounted on a handle collar. The handle collar can be clamped at any height along the stem rod, while the tee handle can be attached to the handle collar in two configurations, resulting in two different heights of the handle. These features allow the operator to lift the auger out of the ground by doing a seated calf raise in two quick increments, corresponding to the two configurations of the tee handle. It also allows the stem rod to be assembled of fewer, but longer stem segments, thus saving on cost.

A hand-actuated earth auger of the type used to drill water wells, for taking soil samples, or other similar purposes is disclosed. It consists of a spiral or bladed earth drill, extended with one stem rod consisting of one or more stem segments, and one tee handle mounted on a handle collar. The handle collar can be clamped at any height along the stem rod, while the tee handle can be attached to the handle collar in two configurations, resulting in two different heights of the handle. These features allow the operator to lift the auger out of the ground by doing a seated calf raise in two quick increments, corresponding to the two configurations of the tee handle. It also allows the stem rod to be assembled of fewer, but longer stem segments, thus saving on cost.

An electrical handheld shovel system includes a handheld shovel with an auger bit. The shovel includes a motor configured to rotate the auger bit and a portable power source configured to power the motor. The shovel includes an input/output (I/O) device and a controller to control rotation of the auger bit. The shovel has a handle and a shovel portion. In one example, the power source is integrated into the handle, and in another example, the power source is detachably coupled to the handle. The shovel has a gearbox coupled to the motor. The shovel portion includes a blade positioned proximal to the auger bit to retain debris from the auger bit. The auger bit has a flute that is partially covered by the blade, and the blade defines a discharge opening configured to discharge at least some of the debris.