DE167481C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to a device to automatically drill (twist or flat drill) to be relief-ground on both cutting surfaces. It is characterized by the peculiar drill movement that it contains consists that the drill holder receiving the drill on the one hand an oscillating movement around a fixed axis skewed to the drill axis, on the other hand between ίο every swinging movement a rotary movement in the same direction around its own axis experiences in such a way that always alternating. one and then the other Cutting edge is guided past the grinding surface. This will be exactly matching Cutting surfaces generated.

In the drawing, an embodiment of the new device is shown, namely shows:

Fig. Ι a front view,
Fig. 2 is a plan view,
3 is a side view,
FIG. 4 shows a longitudinal section according to xx and FIG. 5 shows a longitudinal section according to yy of FIG. 2.

The machine frame 1 carries the shaft 3 in the bearings 2. The latter has two screws 4 and 5, one of which, 4, by means of the worm wheel 6 and the bevel gear 7 a shaft 8 drives while the worm 5 through the worm wheel 9 the rotation of the Drill holder 10 causes.

The drill holder sits in a bearing 11, which can be rotated with its lower part around the shaft 3. A lever 12 is attached to the upper part of the bearing 11. The same is guided backwards at an obtuse angle and connected to the crank disk 14 on the shaft 8 by an articulated connecting rod 13. As a result of the rotation of this crank disk, the bearing 11 is accordingly rotated forwards and backwards about the shaft 3. Here, the drill tip 15 is moved past the grinding wheel g alternately from top to bottom or vice versa.

In the exemplary embodiment, all rotating and 'pivoting movements of the happen now Drill alternately, such that after each oscillating movement of the bearing 11, the drive the disc 14 is interrupted until the drill is switched. The device this is the following:

The drive worm 9 (Fig. 5) of the drill holder 10 sits loosely on this and carries on its sleeve-like elongated hub a fixed disc 16. The drill holder 10 is itself firmly connected to the adjacent disk 17. The crank disk 14 is also seated (Fig. 4) loosely on the shaft 8, but is firmly connected to the loose disk 19 of the shaft 8. In contrast, the adjacent disk 18 is fastened on the shaft 8. The discs 16 and 18 therefore run with the waves 3 respectively. 8 steadily around.

The discs 17 and 19 are each with two opposing slots 22 BEZW. 22 ^a and are always

rend half a turn of the discs 16 and 18 by means of the slots and the resilient pins 20 respectively. 20 ^a held until the bezw on the continuously rotating disks 16. 18 seated driver 21 respectively. 2i ^a in the opposite, so just below located slots 22 respectively. 22 ^{a of} the disks 17 respectively. 19 fall and take them with you, the pins 20, 20 ^{a lift} out of the upper slots 22, 22 ^a . The driver 21 respectively. 2 \ ^a are then triggered after half a turn each time that they with their protruding nose on one of the bridges 23 respectively. 23 ^s push and so from the relevant slot 22 respectively. 22 ^a stand out. Simultaneously, the pins 20, 20 ^a then fall into the slots 22, 22 ^A, and prevent, during the next half revolution of the disks 16 and 18, the rotation of the discs 17 and 19th

The process is now as follows:
The shaft 3 is continuously rotated and through this in the same way the shaft 8. If you now assume a position in which disks 14 and 19 are coupled to disk 18, slot 22 ^a and driver 2i ^fl are just in their deepest position If, on the other hand, disk 17 is free from disk 16, that is to say driver 21 is just below bridge 23, the drill is first pivoted from top to bottom and one cutting edge is ground in the process. Now the drill initially remains in its position by disconnecting disks 14 and 19 from disk 18, but is rotated around its own axis by 180 °, in that the driver 21 of the disk IO falls into the slot 22 of the disk 17 located just below, whereby the drill holder 10 is coupled to the rotating disk 16. After completion of the switching rotation of the drill, the drill sleeve 10 is disengaged from the disc 16 by lifting the driver 21 on the bridge 23 and, since at the same moment crank disc 14 respectively. Disk 19 is coupled to disk 18 by driver 2i ^a , the drill with its entire holding device 11 is swung back in an arc from bottom to top and the other cutting edge is ground in the process. It then stops again, is rotated again by 180 ° and the same process is repeated until the drill is finished.

But you can also make the device that the axial rotation of the twist drill already takes place during the grinding, i.e. continuously, by triggering and releasing the interchangeable couplings regulate accordingly. The latter can also be omitted entirely and appropriately trained in their place Cams are used.

Claims (1)

Patent claim: Grinding device for producing corresponding sloping cutting surfaces on drills, characterized by an automatically interrupted or constantly rotating in the same direction drill holder (10), which is moved evenly past the grinding wheel (g) by automatically generated oscillation around a shaft (3). 1 sheet of drawings. Berlin, printed in the Reichsdruckerei.