DE362415C - Keyseating machine - Google Patents

Description

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The invention relates to the known keyseating machine, with the help of which in the Bore wall of gear hubs, belt pulley hubs, Slider cranks and the like. Keyways are to be produced. The tool attacks from the inside of the hub bore. To make that possible, the tool attached in a back and forth (mostly going up and down) guide rod and pushed the workpiece with its bore over this rod.

The advance of the tool is already known in such keyseating machines to be set up so that the intermittently rotated spindle that mediates the feed at the same time moves a pointer that is moved over a line division for as long as until the pointer body hits a stop and thereby drives the workpiece feed stops.

So far, a nut carrying the pointer has been arranged on the said spindle,

which was shifted along the spindle during the spindle revolution. The pointer cooperated a line graduation slidably arranged on the frame. Every time first had to move the tool into the gate position by turning the spindle to be brought. Then the line division had to be adjusted so that the pointer came in line with the zero line, ίο and finally an adjustable stop had to be made accordingly with the help of the line division the desired groove depth can be set. So it was one structurally complex, time-consuming and no guarantee against incorrect settings Furnishings.

In contrast, with the new device, after the tool needs to be cut is set, only a one-time setting of the pointer at an unchangeable fixed Division take place, after which everything else takes place automatically. To this end a hollow shaft is set in intermittent rotation by the rear derailleur, with the one over a pointer disk is connected intermittently moving pointer, its in the hollow shaft The stored pull stud triggers the tool feed as soon as the pointer reaches the zero line on the graduation of the pointer disc.

One embodiment of the invention is that the pointer on the in the paragraph-wise twisted hollow shaft mounted pull studs can be moved lengthways by means of a spring wedge, but is arranged non-rotatably. The lower end of this bolt has a release lug. As soon as the bolt by means of a Nut and a friction cone is determined in any position to the hollow shaft, remains the position of the pointer to the release nose remains unchanged.

In the drawing, Fig. 1 shows the overall arrangement of the keyseating machine on which the subject matter of the invention is attached. Fig. 2 is a longitudinal section through the Knife guide rod.

Figs. 3 to 5 show the subject of the invention on a larger scale, namely Fig. 3 in a side view and Fig. 4 in a view from above.

Fig. 5 is an individual representation of the release lever.

A guide rod ι is firmly connected to the work table 2, in the groove 13 of which the knife rod 15 with the tool 14, and also the feed rod 18 with the wedge 17, is guided. The rod 15 is connected to the working slide 3, which is moved up and down on the guides 4 of the machine frame A. The up and down movement of the working carriage and thus the rod 15 is brought about by the drive shaft 5 on which the pulleys 6 and 7 are loosely rotatably arranged on the left. By axial displacement of the shaft 5 ″ mounted in the hollow shaft 5, a coupling 8 is brought into engagement with one or the other of the disks 6, 7 and the shaft 5 is thereby driven in one direction or the other Hand lever 9. The spur gear 10, which is in engagement with the large spur gear 11, sits on the shaft 5. A spur gear (not shown) sits on its shaft 12 and engages in a rack of the work slide 3 (also not shown) Shaft 5 in one direction the rod 15 carrying the tool is moved downwards and in the rotation in the other direction upwards. A mechanical reversal at the end of the working stroke is provided.

The workpiece is pushed with its bore over the guide rod 1 and fixed on the work table 2. The cutting edge of the tool 14 is directed downwards. The knife bar 15 carrying the tool is held captive at its lower end in a shoe 16 on the slide 3. The lower end of the feed rod 18 guided in the groove 13 is fastened in a body 19 which is held captive in the feed slide 20. This feed slide can be moved up and down on the guides 21 arranged on the work slide 3. The feed slide 20 can accordingly execute a special movement against the work slide 3. During this special movement, the push rod 18 is either raised or pulled down. But if this rod 10c is pulled down, then the wedge 17 drives the tool 14 out of the groove 13 of the guide rod ι so that the effective cutting edge of the tool 14 lifts a chip from the inner wall of the hub bore. The more the wedge 17 is pulled down, the further the cutting edge of the tool 14 protrudes to the outside; the \ ^T Feed rate of the tool is thus caused by the intermittent downward movement of the rod 18th The rod 15 goes up and down with the tool 14 together with the feed rod 18 as a whole carried by the work slide 3, the tool advance being brought about by a special movement of the feed slide 20, which is guided on the work slide 3 and carries the feed rod 18. This special movement is derived from the shaft 12 by means of a push rod 22. Since the shaft 12 rotates with an alternating direction of rotation, the push rod 22 can act on a switching mechanism, which is a spur gear 23

(Fig. Ι and 3) indexes in one direction, while this spur gear stops when the push rod 22 moves in the other direction. The movement of the spur gear 23 is transmitted via a spur gear 30 to a horizontal shaft 32 which drives the standing shaft 26 by means of bevel gears 24, 25. From this shaft, the intermittent rotation is transmitted to the feed spindle 29, which engages the feed shaft 20, by means of a spur gear reduction gear 27, 28 (FIG. 1). In this way, the feed shaft is moved a small distance downwards with each working stroke, including the wedge 17, as a result of which the tool 14 is fed intermittently.

According to the invention, a screw 33 is now seated on the horizontal spindle 32, which is in engagement with a worm wheel 34.

The latter is seated on a hollow shaft 35. In this a tightening bolt 36 is mounted, which on one end carries a friction cone 37 and is threaded at the other end is; The tightening bolt 36 can be fixed in the hollow shaft 35 by means of the nut 38. A pointer 50 is non-rotatable on the tightening bolt by means of a spring wedge 60, but Arranged longitudinally displaceable. This pointer has a handle 39 and a hub 40, which lies against the plane surface of a recess in the hollow shaft 35. The pointer 50 becomes thus also firmly connected to the hollow shaft 35 by the nut 38. On the rack a graduated pointer disk 41 is attached over the device which the pointer is moved. Finally, at the conical end of the tightening bolt 36 a release nose 42 attached, which when a certain position is reached against a stop 43 (cf. FIG. 5) meets, which forms the end of a lever 44. This through a spring 45 always pulled into the working position lever is swung out as soon as the nose 42 abuts against the stop 43, a coupling part of the support 46 of the lever 47 slides off the disengagement of the feed drive in a manner known per se brings about.

The handling of the device is as follows: As soon as the tool has been set to the bevel using the hand crank 48, the nut 38 loosened and the pointer 50 by means of its handle 39 opposite the pointer disk 41 adjusted so that the pointer to the zero mark of the disk 41 is one of the desired Xutentiefe runs through the corresponding path. The nose 42 is arranged on the tightening bolt 36 so that that it swings out the lever 44 as soon as the non-rotatably connected to the tightening bolt Pointer 50 reaches the zero line of the pointer disk. In the moment in which the keyseating work is completed, so the tool feed is stopped automatically, without prior adjustment of the stop with which the pointer interacts, or an adjustment of the Pointer disk needs to take place.

Since the feed of the tool is now effected by a wedge and continues for the different tools wedges with different angles are used, so corresponds one revolution of the feed spindle each time a different feed rate. Accordingly cannot divide the pointer disk 41 for all tools be suitable. There are therefore several graduations concentric on the pointer disk 41 arranged, which correspond to the usual tool sets. So you only need the one for that when setting the pointer to choose the relevant tool line division.

Claims (2)

Patent Claims: 1. Keyseating machine, in which a switching mechanism controls the feed of the The spindle providing the tool is offset by intermittent rotation and a pointer moved by this spindle is on a line division is moved past until it hits a stop the Triggers the tool feed, characterized in that the spindle (32) has a hollow shaft (35) in intermittent rotation is displaced, with which an intermittently via a pointer disk (41) moving pointer (50) is connected, whose in the hollow shaft (35) mounted tightening bolt (36) the triggering of the tool feed as soon as the pointer touches the zero mark on the pointer disk achieved. 2. Keyseating machine according to claim 1, characterized in that the pointer (50) longitudinally displaceable on the tightening bolt (36) by means of a spring wedge, however non-rotatable, is arranged and that the lower end of this bolt is a release lug (42) whose position in relation to the pointer remains unchanged in every position of the latter. 1 sheet of drawings.