The present disclosure is directed toward a tooling assembly for a machine having an automatic tool changing system. The tooling assembly includes a holder, a tool body, and an internal passage defined within and extending through the holder and the tool body. The holder includes a machine interface configured to engage with a spindle of the machine. The internal passage is operable to have a coolant fluid flow within, and has a stem channel and a curved channel extending from the stem channel.

A drill (1) is provided with a thinning edge (7), a gash portion (8), a coolant passage, and an oil hole (12). The thinning edge (7) is provided at a leading end portion of a body (3), and extends toward a chisel portion (9) from an inner end (51) of a cutting edge (5). A ridge line between the gash portion (8) and the flank (6) extends in a circular arc shape from an inner end of the thinning edge (7) toward an outer peripheral surface (31) of the body (3). The coolant passage is provided inside a shank and the body (3), and extends from a rear end portion of the shank toward the leading end portion of the body (3). The oil hole (12) is provided at a gash face (81) of the gash portion (8) and is an outlet of the coolant passage.

The object of this invention concerns a boring head (1) including a cutting insert (2), characterised in that the body of the boring head (1) includes, in its thickness, at least one device to allow for the displacement of a liquid, said device including at least two orifices (3) in the surface of the boring head (1) located in the vicinity of the insert (2).

A tooling assembly for a machine having an automatic tool changing system includes a tool body disposed about a rotational axis and defining an internal passage operable to flow a fluid therein. The internal passage includes an inlet, stem channel, first and second curved channels, and first and second transition portions. The inlet is configured to receive the fluid from the machine. First and second outlets are open through an exterior of the tool body. The stem channel is in fluid communication with the inlet and ends at a beginning of the first and second transition portions. The first curved channel extends from the first transition portion to the first outlet. The second curved channel extends from the second transition portion to the second outlet.

The invention relates to a cutting tool, in particular for cutting, drilling and/or milling a workpiece, with a base body having a central axis, a front end and a rear end, wherein the cutting tool comprises at least one functional element for guiding and/or machining the workpiece, wherein the cutting tool comprises a channel system for supplying the at least one functional element with a cooling lubricant, wherein the channel system comprises a distributor element configured separately from the base body, and wherein the channel system comprises at least one distributor channel aligned transversely to the central axis.

The drill includes a main blade having a wicking amount, a thinning blade, a thinning back portion, and an oil hole. The thinning bottom is along the first radius. The thinning back portion is along the second radius. The pair of thinning bottoms includes a thinning separation amount. (1) The first radius for the wicking amount ranges from 0.5?f to 1.2?f, and f represents the wicking amount. (2) The second radius ranges from 5.5 mm to 7.5 mm. (3) The thinning separation amount ranges from 0.5 mm to 1.2 mm. (4) The thinning-oil hole distance ranges from 0.1 mm to 0.8 mm (5) The thinning range from the first thinning end to the second thinning end is in the range from (D/2?1.5 mm) to (D/2?0.2 mm) with respect to the diameter, and D represents the diameter.

In a rotating tool with a coolant hole, a coolant hole extending to a front side in the direction of an axis opening to a tip flank face of a drill main body that is rotated around the axis. In a cross section orthogonal to the axis, the coolant hole is provided with a first concavely curved portion located on an inner peripheral side of the drill main body and formed in a concavely curved shape recessed to the inner peripheral side, a second concavely curved portion located on an outer peripheral side of the drill main body and formed in a concavely curved shape recessed to the outer peripheral side with a larger curvature radius than the first concavely curved portion, two third concavely curved portions having a center of a curvature radius located inside the coolant hole with a smaller curvature radius than the second concavely curved portion.

A modular drill includes a shank, a retaining pin, a cutting insert, and a locking pin. The shank includes a shank bore having an axial direction leading into the shank bore, and a locking pin opening. The retaining pin includes a retaining pin shaft axially movable positioned with the shank bore, the retaining pin shaft having a locking pin engagement surface. The retaining pin includes a retaining pin head having a retaining pin head engagement surface. The cutting insert includes a cutting insert passage for passing the retaining pin head therethrough; and a cutting insert cavity having a cutting insert engagement surface for engaging the retaining pin head engagement surface. The locking pin is for positioning within the locking pin opening and engaging with the locking pin engagement surface to force the retaining pin shaft to move further in the axial direction.

A tool body 10 of a cutting tool 1 for use in hole machining is provided with an insert mounting seat 20 on which a cutting insert 60 is mounted, and such tool body 10 includes: a chip discharge bore 30 formed so as to extend from the insert mounting seat 20 toward a base-end side 10b of the tool body 10; and a coolant flow path 40 for supplying coolant from the base-end side 10b toward a leading-end side 10t of the tool body 10. The coolant flow path 40 includes a through-hole 41 that extends from a peripheral surface 14 of the tool body 10 toward the leading-end side 10t of the tool body 10.

An indexable drill insert includes a drill body having a central longitudinal rotational axis (C.sub.L), the drill body comprising a shank portion and a fluted cutting portion, the fluted cutting portion having a front clearance face and a plurality of flutes, the fluted cutting portion includes a central insert pocket capable of receiving a central cutting insert and a peripheral insert pocket capable of receiving a peripheral cutting insert. For the central cutting insert, a central, longitudinal axis of a projection of the flute coolant exit aperture can intersect a vertical plane (PA1) having an area (A1) or a horizontal plane (PB1) having an area (A2). For the peripheral cutting insert, the central, longitudinal axis of the projection can intersect a vertical plane (PA2) having an area (A3) or a horizontal plane (PB2) having an area (A4).