In one embodiment, a system includes a counterbore drill bit, pre-cut lead rods of predetermined length, and a tapper tool. The counterbore drill bit includes a stop collar to drill counter bored holes with a first hole portion having a first diameter to a first depth below a surface of a material and a second hole portion having a second diameter less than the first to a second depth below the surface. The lead rods are inserted into the counter bored holes. The tapper tool mashes the second end of each lead rod in the one or more counterbored holes to expand and friction fit then in the counter bored holes. The system further includes circular survey tags insertable into the first hole and fasteners with a head and a shaft insertable through a center hole in the survey tags to retain the tags coupled to the lead rods.

The device is self retractable, of rigid material in telescopically, it can be installed in all types of drills: home and industrial, wired and wireless, which conforms to the bases where the mandrel holder bits; thus covering completely the drill, thus avoiding the risk of contact with hands that drill, drill during handling; other under this device is to set the measure, according to the need of drilling and allow this to be perfectly repeatable; also allows maximum collecting waste, thereby protecting the goods and goods and because independent deposit the mandrel extends the life of the drills and isolating such waste; it can also be made of transparent materials that allow complete visualization of the drill.

An apparatus for securely holding a drill bit in a handheld drill, the drill bit including a pointed end and a bottom end, is described. The apparatus includes a collet, which includes a silo for accommodating the drill bit therein. The silo includes a fixed stop, such that the bottom end of the drill bit rests against the fixed stop, and a compressible collar for securing the drill bit within the silo. The drill bit has a drill bit length and the silo has a silo depth shorter than the drill bit length such that, when the drill bit is inserted into the apparatus, the pointed end of the drill bit protrudes from the apparatus by a maximum depth defined by the drill bit length minus the silo depth. The apparatus, when used with the handheld drill, only allows drilling of holes having a depth up to the maximum depth.

A guide template having a tool guide for a working tool, for producing a main-side cut-out on a workpiece main-side surface of a workpiece which workpiece has a workpiece secondary-side surface, which is at an angle to the workpiece main-side surface and proceeding from which a secondary-side cut-out extends into the workpiece next to the workpiece main-side surface at a distance therefrom, wherein the guide template includes a main-side stop having a main-side stop surface for making contact with the workpiece main-side surface and includes a secondary-side stop, which has an engagement protrusion for engaging the secondary-side cut-out, wherein a longitudinal axis of the engagement protrusion extends toward the tool guide to an intersection region, in which the main-side cut-out to be produced and the secondary-side cut-out intersect, and is at an angle to a guide longitudinal axis of the tool guide, wherein the guide template includes a depth stop having a depth stop surface for a counter stop assigned to the working tool for limiting the penetration depth of the working tool into the workpiece with respect to the guide longitudinal axis.

A portable device is disclosed for drilling a hole through a plate and into a wooden tie and/or inserting a lag screw into the hole in the plate and into the wooden tie. The portable device may include a handle and a removable drill with a rechargeable battery that provides power to the portable device. In various embodiments, the portable device may include a quick connect/disconnect component configured to enable the portable device to be used as a tie drill device or a lag screw inserter device by interchangeably connecting either a drill bit or a lag screw socket to the portable device. In various embodiments, the portable device may include quick-release system, a bit-aligning tip, and/or a bit aligning guide to facilitate switching between different tools compatible with the portable device.

These inventions include three drill guides (Multiguide, Triguide, and Uniguide), and two attachments (canting base and dowel jig). The drill guides allow users to drill holes to prescribed depths into flat work surfaces using various sizes of bits including twist and auger bits while eliminating marring and reducing wood splintering. The canting base attachment allows users to drill holes to prescribed depths and at variable angles into flat surfaces and both large and small cylinders having zero, one, or two free ends using various kinds and sizes of drilling tools including twist, auger, and Forstner bits. The dowel jig attachment allows users to drill dowel holes to prescribed depths in edges and faces of workpieces that are evenly spaced apart by numerous gauged distances and at adjustable distances from edges without slippage or misalignment. These inventions have drill press-like capabilities and can be used in fields and shops.

A hole-saw comprises a tubular body connectable at one end to inter alia a power drill and formed at its other end with an annular array of cutting teeth. A collar is positioned at the end of the tubular body remote from the cutting teeth, the perimeter of the collar extending generally normal to and beyond the perimeter of the tubular body.

The disclosure relates to a machining station for machining platelike workpieces (1) by means of at least one tool (10, 13, 14). The machining station has a measuring device (16) for acquiring data relating to the position of bores, a drill (10, 13, 14) for generating bores in the workpiece (1), and a data processor (17) for processing data of the at least one measuring device (16) and/or for controlling the at least one drill (10, 13, 14). The data processor (17) is here suitable and set up for performing an adjustment between a desired drilling position and/or a desired bore depth and an actual position and/or actual depth as determined by the at least one measuring device (16) for a bore present in the workpiece (1), and adapting the drilling position and/or bore depth for generating bores by means of the at least one drill (10, 13, 14).

Various embodiments of power tool and method of operating same are described. The power tool may include a first position sensor, a second position sensor, a third position sensor, and a controller. The first, second, and third position sensors may each generate a signal indicative of a distance between the respective position sensor and a workpiece. The controller may determine one or more angles of the power tool with respect to the workpiece based on the first, second, and third signal and present an indication as to whether the one or more angles are within a predetermined range. The controller may further obtain a depth measurement based on the first signal, the second signal, and the third signal and generate, based on the obtained depth measurement, one or more control signals that control operation of the power tool.

A method of using a medical tool comprising a cranial access drill includes placing a guide-hub against a cranial drilling surface, guiding a drill bit into the guide-hub along an axial direction of the guide-hub, drilling the cranial drilling surface in the axial direction with the drill bit using a motor, detecting, using a controller, an electrical parametric change at the drill bit that corresponds to puncturing the cranial drilling surface, and deactivating, using the controller, the motor in response to detecting the electrical parametric change.