DE1051610B - Boring bar with device for cooling the cutting edge - Google Patents

Description

Boring bar with means for cooling the cutting edge The invention relates on a boring bar with a device for cooling the cutting edge.

In known drill rods of this type, the cooling water channel opens in Drill head in the direction of the not yet reground cutting edge. By regrinding however, the cutting edge experiences an ever-increasing deviation over time on, which has the consequence that finally the cooling water jet is no longer on the Cutting edge or meets the cutting point.

The invention is now based on the general object of the coolant jet to make adjustable with a boring bar, thus an adaptation of the cooling device to the operating conditions changed by regrinding the cutting edge will.

In the case of lathes, the cutting point can already be adjusted Cooling devices for tool and workpiece are known, but these devices are not applicable to a boring bar for reasons of space. In addition, the boring bar is allowed not weakened by an adjustable cooling device and the chip discharge not be affected.

According to the invention this is achieved in that the outflow opening for the coolant through the exposed radial bore of a screw nozzle Hollow shaft is formed, the end face into the axial mouth of the coolant channel used in the drill head and adjustable in the direction of its cutting edge. Appropriate the hollow shaft of the screw nozzle is slotted at its screw-in end and secured against twisting itself.

With a boring bar of this type, the cutting edge can be much stronger Extent than before are reground, so that the service life of the tool is significant is increased.

In the drawing, the subject matter of the invention is illustrated in an exemplary embodiment, namely FIG. 1 shows a diagrammatic representation of the new drill rod, FIG. 2 shows a longitudinal section of the drill rod according to FIG. 1 and FIG. 3 shows an end view of the drill rod head. In the illustrated embodiment, the insert rod forming the core of the drill rod is designated with 1, the sleeve forming the shaft of the drill rod with 2, the drill head with 3, its cutting edge with 4 and the threaded sleeve for connecting the cooling water line with 5.

The insert rod 1 has threads at both ends, which are used on the one hand to screw on the drill head 3 and on the other hand to screw on the threaded sleeve 5. Following this thread, the insert rod 1 has cylindrical lugs 6 which secure the shaft sleeve 2 the correct distance from the insert rod 1 over its entire length. The shaft sleeve 2 is not rotatable relative to the insert rod 1 , which z. B. can be achieved by a wedge 7 which engages in a corresponding longitudinal groove in the interior of the shaft sleeve 2. The shank sleeve 2 is clamped between the drill head 3 and the threaded sleeve 5.

The cooling water channel is in the longitudinal direction of the drill rod the same passed through, as shown in FIG. The cooling water channel 8 a begins in a central bore of the insert rod 1 on that of the threaded sleeve 5 facing end and runs in the direction of the arrow. Behind that of the threaded socket 5 facing cylindrical extension 6, the cooling water channel goes through a radial bore into the annular space 8 b, which is located between the insert rod 1 and the shaft sleeve 2 extends to the front cylindrical extension 6. Via a second radial hole in front of this front cylindrical extension 6, the cooling water channel goes back into a cylindrical bore of the insert rod 1 over, where it extends to the front end of the same runs. In the drill head 3 screwed to the insert rod 1, the Kühlwasserkanal8 continues in a threaded hole into which the screw nozzle 9 is inserted is.

The screw nozzle 9 has a hollow shaft which is the continuation of the Forms cooling water channel. The cooling water channel ends inside the screw nozzle 9 in a side nozzle opening 10 below her head.

The head of the screw nozzle 9 is provided with a screw slot 11 which is used to adjust the screw nozzle. The shaft of the Gehraub nozzle 9 has a longitudinal slot 12 which enables the screw nozzle to be press-fit within the threaded hole of the drill plug 3. The screw nozzle 9 is thus geen an automatic rotation secured within the threaded bore.

The screw nozzle 9 protrudes with its head and the) nozzle opening 10 over the face of the drill head mouse so that the coolant on the flank 4a of the cutting edge 4 can reach the interface unhindered. By screwing the screw eye 9 back and forth, the height of the screw jet can be changed. It is also possible to loosen the cooling water jet by screwing the screw nozzle more or less into the screw head so that the nozzle opening 10 is enlarged or reduced.

The drill head can be designed in any way, for example in the form of a roughing steel, a corner steel or a thread steel.

The end of the insert rod 1 facing the drill head 3 expediently has on its end face a pass-in or a widening 13 of the cooling water bore so that the hollow shaft of the screw nozzle 9 when screwing back a sufficient Has an alternative.

3 shows the re-ground flank in dash-dotted lines 4a of the cutting edge: 4 and the direction of the changed by adjusting the screw nozzle 9 Coolant jet (broken arrow).

Claims (1)

PATENT CLAIM ;: 1. Boring bar with device for cooling the cutting edge, characterized in that the outflow opening for the coolant through the exposed radial bore of a screw nozzle with a hollow shaft is formed, the end face inserted into the axial opening of the coolant channel in the -drill head and in the direction is adjustable on the cutting edge. z. Boring rod according to claim 1, characterized in that that the hollow shaft of the screw nozzle is slotted at its screw-in end and against Self-twisting is secured. References contemplated: United States Patent Specification No. 739 866.