DE569361C - Drive device for stereotype plate casting machines - Google Patents

Description

Drive device for stereotype plate casting machines To stereotype plate casting machines inevitably to drive, it has been suggested on the one hand to move each Shafts with the help of clutches switched by a continuously rotating control shaft to switch to the main drive shaft and on the other hand you have instead Inevitable shifts used in which, although clutches are avoided, for it but an intermediate shaft from the main drive shaft with the help of various, in an inevitable change to the effect coming transmission gear intermittently and it is rotated now faster, now slower and then with help further, intermittently working gear trains, soon the casting mold shaft, then the Chick shaft drives. There comes every change in the interlocking of individual gear parts suddenly come into their own, so there are very high loads in the gear parts on what affects the operational safety and causes an annoying noise.

To create a casting machine drive where in contrast to the previously known gears a special control shaft and the use of cam discs for the temporary locking of gear parts dispensable, but the use of star gears known per se, with the greatest possible simplification of the Driving device and reducing the number of gearboxes required and in particular of ring gear segments is possible, according to the invention by a steadily, but only once rotating main drive shaft with each casting process directly a star gear with a two-armed locking shoe moves and through this rotated the mold shaft in such a way that the line of action of the cooperating Ring gear segments of the star gear at the beginning of a work cycle and at the end one in which: is the center of the meshing gear rim segments, while on the other hand from the main drive shaft with the interposition of a Spur gear with the gear ratio 2: z another star gear rotated and through this with another spur gear transmission the drive crank for the shut-off means of the mold is moved, with one and the same headstocks this latter star gear during each work cycle in two times different phases come into effect.

Figs. Z and 2 of the drawing illustrate an embodiment the invention. The movement of the mold and the gate is controlled by the main drive shaft z derived, which revolves evenly once during a casting process and is then switches off automatically. This can be either achieved thereby be that the shaft i after switching on its motor from this with the interposition a corresponding transmission gear is rotated and after a complete Umlauf turns off the electrical power line to the engine, or thereby, that one provides a mechanical gearbox of known type, by that the shaft i is connected to a disk continuously driven by the motor and is switched off by this after one complete cycle.

To drive the crank a, which moves the casting mold in a known manner, the drive pulley 3 with the jacks 4 and 5 and the locking disk 6 are fastened to the shaft i. The drive pulley 3 has a ring gear segment 7. With this, in the rest position, it engages in a ring gear segment 8 which is mounted on the intermediate shaft 9. The transmission ratio of the two ring gear segments 7 and 8 is 2: 5, so that by rotating the shaft i by 36 ' from the rest position shown in Fig. I, the shaft 9 is rotated by 90 °. Here, the headstock 4 enters the inlet slot io of the locking disk ii attached to the shaft 9, so that the locking shoe i2 rests against the outside of the locking disk 6 sitting on the shaft 1 and thereby temporarily prevents the shaft 9 from being carried along as the shaft i continues to run . Only when the shaft i approaches the end of a full revolution does the pinion 5 engage with the inlet slot 13 of the locking disk ii and turn it so far that the toothed segment 7 engages with the toothed ring segment 14, which is opposite to the toothed ring segment 8 the shaft 9 is attached. The transmission ratio is adjusted in such a way that the shaft 9 is rotated only by 180 ° through the full revolution of the shaft i, but in two steps of 90 ° each at the beginning and at the end of the full revolution of the shaft i. In each of these two partial movements, the shaft 9 has rotated the shaft 17 by 18o 'with the aid of the spur gear 15, 16, which is translated in a ratio of 2: 1. On the latter sits the crank e, which serves to drive the casting mold in the manner already mentioned above. This is therefore each time rotated by 18'o 'at the beginning and at the end of a revolution of the shaft i and accordingly also at the beginning and end of a casting process and closed the mold during the first partial movement and opened it again during the last partial movement, as did is required to operate the machine.

The movement of the shut-off means, stopcock plug or gate valve, of the The main drive shaft i from offers a different kind of task than the rotation of the star wheel in question cannot begin at the moment when the shaft i is rotated out of its rest position, but only when the mold closed is.

Even though a star wheel could be driven directly from shaft i for this purpose, it is advisable to use an intermediate gear with a ratio of 2: x, so that the necessary adjustments can be made during larger angles of rotation, which is cheaper Relationships of forces in the gear parts result. For this reason, according to the invention, to adjust the shut-off means from the shaft i with the help of the spur gear 18, i9, an intermediate shaft 2o is driven, which rotates twice as fast as the shaft i. The locking disk 21 is seated on the shaft 2o and rotates the switching disk 24 with the aid of the headstocks 22 and 23 and corresponding segments 26 of the star wheel seated on the shaft 27 with the aid of its ring gear segments 25. The locking disc 21 with the rackets 22 and 23 takes the position shown in Fig. 2 in the initial position, so that the shaft i first has to rotate further through a certain angle before the rack 22 engages in an incision in the switching disc 24 and this so takes away that the segment 26 comes into the area of the segment 25 of the retarding disk 21. At the other end of the ring gear segments 25 and 26, the headstock 23 enters an incision in the indexing disk 24. The movements of the disk 24 are transmitted with a transmission ratio of 3: 2 by means of the spur gears 28, 29 to the crankshaft 30 , which consequently executes half a revolution for every third revolution of the shaft 27, so that the crank 31 alternately acts as the shut-off means for the TvIetalleein opens and closes from the kettle into the mold.

The transmission described allows it to be opened easily and closing the shut-off device in a correct interaction with the closing and to bring opening movements of the mold and for each of these movements the to adhere to the usual and proven periods of time that were previously only possible with the help of Could realize cam-actuated clutches.

Claims (1)

PATENT APPLICATION CI3 Positive drive device for stereotype plate casting machines, characterized in that from one continuously, but only once for each casting process rotating main drive shaft (i) from directly a star gear (q. to io) driven by a two-armed locking shoe (11, 12) and through this the mold shaft is rotated in such a way that the line of action of the cooperating Zahnkraifzsegmente of the star gear at the beginning of a work cycle and on End of such in the middle of each meshing gear rim segments and from the main drive shaft with the interposition of a spur gear (18, ig) turned another star gear with your gear ratio 2: 1 and through this with another spur gear transmission (2ibis27) three-armed locking shoe (28) the drive crank for the shut-off means of the casting mold is moved, with one and the same headstock of this latter star gear during each work cycle in two separate phases come into effect.