DE365574C - Machine for relief grinding of twist drills with swingable grinding wheel carrier - Google Patents

Description

Machine for relief grinding of twist drills with swingable grinding wheel carrier. The invention relates to a: Twist drill grinding machine with a swingable grinding wheel carrier and consists in the formation of the same in such a way that the grinding of the drill under Automatic creation of a conical grinding surface by the grinding wheel vibration takes place and .with reference to the feed, the twist and the undercut of the drill a most extensive setting and precise adaptation to .the size and allows the purpose of the latter.

The drawing shows an embodiment of such a twist drill grinding machine, namely in Fig. r in side view with partial step, in Fig 1. 2 in top view, in Ah .b. 3 and '4. the position of the grinding wheel to Drill, in side and top view to explain how the grinding wheel works, in Fig. 5 in cross-section A-B from Fig. i and in Fig. 6 in cross-section C-D from Fig. i. In the housing of the machine, the drive shaft is 2-mounted, which is mediated of a snail. (1g1. Transmission gear. 3 front belt pulley .i with a suitable Circulation speed is driven. On (ler shaft 2 sit outside the housing the belt pulley 5 and the two cam disks 6.

From the pulley 5, the belt runs over the roller 8, which is with Tongue and groove on the main shaft; seated and move non-rotatably on the shaft leaves. The main shaft; is a hollow shaft, which is inclined at a suitable angle on the Housing i is mounted, can be moved axially in their bearings and to this Purpose with. its lower head-shaped end by the spring 9 against (read crosshead io is pressed, which is hinged to an arm on the housing (Fig. 2) and through a suitable feed mechanism is adjusted. At the top of the hollow shaft 7 is Lias with jaws 4, 15 provided leminftitter 12 for the workpiece, which, as is known, apart from clamping the drill, also serves to hold it with Help to turn its twist into the correct adjusting ring for the grinding wheel.

On (ler main shaft; there is the grooving2d .; for three purposes serves: first the main real; the twist of the drill 16 geliläß by turning adjust, the part-lined ornamental main shaft 7 ran to limit and finally to initiate the axial advance of the latter.

The ring 2.i is cut open at one point and is clamped firmly on the shaft 7 by a screw 25 (_ @ Izb.;) Ilisbar. In prevention with the upstream collar 26 and. On the scale 27, the twist (from the drill 16 to the grinding wheel) can be adjusted in such a way (let one cutting edge be directed downwards and the other downwards, as can be seen from Fig. 3. The circumference of the ring 24 has two opposing locking cells 28 (Fig. 5), in the path of which the pin 29, which is initially in contact with the Rilig 2.1, is located. The pin 29 guided in the housing i slides with a roller on the circular disk 31, which for evading the pin = 9 on one Place a recess 32 contains tin-1 of the drive shaft 2 is continuously rotated in the direction of the arrow.

Of the heart-shaped cams 6 are to avoid a dead ganges provided in duplicate arms 43 with rollers at their ends are provided, pivoted back and forth and doing the same thing in the same way Toothed segment 44 seated on the bearing pin moves. This engages in the diagonally upwardly directed axis 46 seated bevel gear 45 a. The axle 46 bearing is arranged on the frame. It bears two eyes encompassing its own bed an arm 47 which receives the bearing for the grinding spindle on an arm 49; the Grinding spindle is axially displaceable in its bearing, .by means of of the handle So, the intermediate positions of the disc by means of clamping screws 51 d.8 for use or non-use. Behind the window 48 the drive roller 52 is mounted for the spindle.

The whole housing i including the main shaft 7 and the movement devices is fixed by means of plate 53 on a second plate 5d, which is the bearing 55 for axis 4.6. And with. (Learn how to attach the machine Stand 56 expediently consists of one piece. The two plates 53, 54 are: against each other rotatable about a pin 57 (Fig. i) and on top of the plate edges with a scale 58, on which the main shaft 7 is set at an angle to the carrier axis .i6 and thereby the relief of the drill cutting surfaces can be changed.

The handling and operation of the machine is as follows: The after Fig. 3 clamped drill 16 is adjusted after it has been turned back. These is adapted to: the material that is to be drilled and accordingly different, so that they extend, as shown in Fig. 3 ul "1.I, up to line a or even up to T) can extend if very soft 'material such as wood, lead or the like. To drill is. The regulation takes place in the simplest way that after loosening the connecting screws of the two plates 53, 5-1, the housing i rotated by .the pin 57 and on the scale 58 (Fig. 2) is set at a suitable angle to the fixed plate 54, whereupon the screws are tightened again. For precise and: slight twisting of the housing can be provided for a quick spindle drive in larger machines. By this twist becomes the main shaft; to the unchanged curved path of the Grinding wheel 48 shifted laterally so that the latter, depending on the desired Back row, the cutting lips bevel more or less.

The machine can now be started at a suitable speed (about q.oo to. Soo), with the movement processes being as follows: From wheel 4, drive shaft 2 and (lainit. Wheel 5 and cam disks. 3 1 and 6 continuously follow one direction, counter-clockwise. The cam disks 6, through the arms 43, the gear drive 44, 45 and the axis 46, cause the grinding wheel 48, which has been turned into the grinding position, to pivot back and forth as well as the suspension of the latter after completion of a Back and forth grinding element: tot, until .the upper cutting surface of the drill 16 is rotated underneath by 180 °, which is done by the main shaft 7. This is held by the bolt 29 during the grinding process by - one of the The locking teeth 28 of the ring 24 lie against the bolt 29 (see the position shown in FIGS. 1 and 2), the latter rolling on the circumference of its circular disk 31 and thereby being held in the locking position The drive belt of the roller 8 slides on the pulley 8 during the standstill, it being possible for a friction drive of a suitable type to be provided instead of the belt drive. When the circular disk 31 arrives with its recess 32 at the bolt 29 (Fig. 5), it is suddenly released, the locking of the drive shaft 7 is lifted, and the latter can turn and thus the drill by 180 °. The .Bolzen 29 is now lifted from the circular disk 31 back into the initial position against the ring 24. The turning and the simultaneous upstream connection of the drill takes place during the standstill of the grinding wheel: benträgers 47, and. very quickly due to the high drive speed, as well as the pivoting of the latter in quick sequence in order to make the machine efficient. In Fig. 3 the dotted cone is drawn, according to which the cutting surfaces of the drill 16 are ground by the grinding wheel 48.

Mention should also be made of the mandrel 6o on the axle 46, which is a test of the two axes 46 and 7 allowed, which when the scale 58 is in a zero position Must be level.

Claims (1)

PATENT CLAIMS: r. Machine for relief grinding of twist drills with a swingable .Schleibenträgger, characterized in that the with flat Surface-acting grinding wheel (48) opposite the fixed drill (16) to Description of a conical surface of [, one: the cutting angle of the drill corresponding cone angle as. Enveloping surface around a grinding surface accordingly obliquely cutting axis (55) is swung to achieve the relief .the drill cutting surface crosses the drill axis at a certain distance, and that the rotation of the workpiece around its axis is only used for switching around the cutting pitch he follows. a. Machine according to: Claim i, characterized in that d @ aß to achieve the grinding and switching movement of the workpiece. from a gear (worm drive 3) from a pair of cams acting in both directions of rotation on the worm gear shaft (6) a lever (43) placed in the oscillating ring, which by means of a bevel gear (44, 45) the Axis (55t) of the tool carrier (47, 49) periodically oscillated, second a friction clutch gear (5, 8) acting on the drill holder spindle (7), .that she constantly seeks to turn in one sense and turns, as far as @die as third Link of the drive shaft (2) actuated locking device (28-31) allows, at a time when tool vibration_ stops. 3. Machine according to claim i, characterized in that the distance between the pivot axis (55) of the tool holder (47, 49) from the drill axis (7), that for back grinding, the drill cutting surface leads, is set up changeable in that the tool holder around one to his Swing axis (55) vertical axis (57) outside the drill axis by means of a special gear rotated and can be set in the rotational position.