DE395183C - Machine for cutting screw grooves - Google Patents

Description

The invention relates to a machine for cutting screw grooves in rotating ones and sliding work pieces, in which the work piece during the return movement movement to the next groove is switched on for the purpose of creating multi-start threads. The previously known machines of this type were only for the production of riner small numbers set up various gradients ίο and with a very simple and imperfect acting switching device provided.

It is already known machines for

To provide cutting of screw grooves with a worm drive. To take away The work piece is served by a driver that is also used as a dividing device. the Switching is done manually and does not allow any setting, because only a certain number of holes are provided for the index bolt.

In the invention, in contrast to the known devices, the switching takes place not by hand, but automatically. To make this possible, is with the new machine on the hollow spindle that carries the work piece, a worm wheel is loosely rotatably arranged, the worm of the lead screw the machine is powered off. With this worm wheel, the bearings of a second worm are now connected, which in a screw firmly connected to the hollow spindle engages. When working and When the machine returns, the second worm and the driven worm wheel revolve thereby establishes the coupling with the hollow spindle. When indexing the workpiece on the other hand, this worm is rotated so that the two worm gears are also rotated relative to one another. An exemplary embodiment is shown in the drawing.

Fig. Ι shows the machine in side view, Fig. 2 shows a longitudinal section through the headstock on a larger scale and

Fig. 3 the headstock seen from behind and

Fig. 4 shows a section through the switch head and ratchet wheel.

On the bed 1 runs in a known manner a carriage 2, the work piece that Roller 3, between the bearings 4 carries. The roller is machined by an or two fixed steel holders 5. The roller 3 is coupled to the hollow spindle 6, which is stored in the bracket 7. The carriage and the hollow spindle are driven by the lead screw 8, which is connected in some way to the drive pulleys is. A toothed wheel seated on the lead screw meshes with the toothed wheel 10. this in the block 7 is mounted. Through the bevel gears 11, the rotation of this gear transferred to the outer wheel 12 (Fig. 2). By means of intermediate gears 13 (Fig. 1), which are eiretzt in the scissors 14, the wheel 15 is then driven, which with the Worm 16 is connected, which in turn engages in the worm wheel 17, which is loose sits on the hollow spindle 6. In addition to the worm wheel 17 is a second worm) ad 18 attached, which is connected to the hollow spindle 6 by a wedge. The snail 19 rests in bearings, the arms 20 of which consist of one piece with the worm wheel 17, so that the worm ig rotates together with the worm wheel 17. The worm wheel 17 also carries the cast-on bearing blocks 21, in which a shaft rests that supports the Gear 22 and the ratchet 23 carries. The pawl 24 engages in this ratchet wheel is attached to the side of the nose 24 · *; the Nose 24 "can lie against the stop 25, which is attached to the bracket 7, and although the stop 25 is rotatably seated on one

Bolt 26. This stop is used to switch the rollers when creating screw grooves. If axial grooves are being created, a pawl is provided for this purpose sits on the arm 29, which rests against the stop 30 on the bed of the machine is attached. The gear 22 meshes with the gear 32 which is seated on the worm shaft 19.

The pitch of the grooves is changed by changing the wheels 12 and 15. Want if left-handed grooves are cut, two intermediate gears must be switched on. Will straight grooves are generated, the intermediate gear 13 is omitted. In this case it is the snail 16 is still.

Switching then takes place as follows: Towards the end of the backward movement of the carriage 2, which is indicated by the arrow R (Fig. 1), the arm 29 hits the stop 30; as a result, the arm 29 is held. The hollow spindle moves on, and thereby the pawl 28 begins to rotate the wheel 23 in the direction of the arrow. These

Rotation is "aui the worm 19, that Worm wheel 18 and thus transferred to the hollow spindle 6 and thereby the indexing causes.

The switching device in the production of helical grooves acts as follows. When the carriage 2 retreats, the worm wheel 17 is set in rotation by the worm 16, and the dividing apparatus 23, 24 takes part in this rotation, the worm 19 not rotating around its own axis, but rotating with it and thus acting as a driver. If the nose 24 ^{s of} the pawl 24 hits the stop 25, the pawl is stopped while the ratchet wheel 23 continues the circular movement about the longitudinal axis of the hollow spindle. As a result, the pawl experiences a rotation about the axis 24 °, namely until the nose 24 ^Λ slides off the stop 25.

During this rotational movement of the pawl, the ratchet wheel is rotated about its axis, and it transmits this movement to the worm 19 via the wheels 22, 32. The stop 25 is resiliently mounted so that, when the ratchet wheel rotates in the opposite direction, it can evade the nose 24 ′ ^{1 of} the pawl 24.

To produce left-handed grooves, an intermediate wheel is placed on the scissors 14 so that the worm 17 rotates in the opposite direction. But then the stop 25 must also be rotated about the bolt 26 downwards. Furthermore, the switching head 24 * carrying the pawl 24 is ^{removed from the pin 24 C} and the ratchet 23 is removed from the hub of the wheel 22 and both are put back on in the opposite direction, so that the pawl 24 ^ now engages in the ratchet 23 and the nose 24 ^a pushes against the stop 25 from below. The circuit then takes place in the opposite direction.

The ratchet wheel 23 is exchangeable and the switching head 24 * and the stop 25 are adjustable set up in order to be able to change the groove pitch. If the groove extends over more than one revolution of the roller, it is the pitch is less than the length of the roller, so it is switched twice when going back, and the division is then to be distributed between these two circuits. The machine allows an extraordinary versatility in use with a relatively simple design to.

Claims (3)

Patent-to sayings: 1. Machine for cutting screw grooves in rotating and sliding Work pieces in which the work piece continues to move during the return movement is switched, characterized in that on one of the work piece (3) supporting Hollow spindle (6) loosely rotatable a worm wheel (17) sits, which bearing for carries a worm (19), the worm wheel of which is used for switching and as a driver (18) is firmly connected to the hollow spindle, with the drive of the worm gear (19) takes place automatically by a ratchet drive. 2. Machine according to claim 1, characterized in that a ratchet drive (ratchet wheel 23, pawl 24) is attached to the worm wheel (17), wherein the nose (24 ^s ) is against one on the bearing block (7) The stop (25) attached to the hollow spindle sets a rotation of the ratchet wheel (23) and thus a rotation of the worm wheel (18) relative to the worm wheel (17) to evoke. 3. Machine according to claim 1 and 2, characterized in that in the ratchet wheel (23) engages a pawl (28), the switching arm (29) of which engages against one on the machine frame attached stop (30) in order to be able to effect the circuit when generating axially running grooves. 1 sheet of drawings.