DE599693C - Touch mechanism of a die setting and line casting machine with lateral zone shifting of the drive rollers - Google Patents

Description

Tastwerk of a die setting and line casting machine with side Zone shifting of the drive rollers In die setting and line casting machines is it is known that the rollers of the tracer drive, which are preferably provided with a rubber coating, are used To avoid the rapid wear and tear to store laterally displaceable. It was already suggested for this purpose the reels each time a line is sent to move a certain piece laterally in the direction of its longitudinal axis. Though the rollers are used better and their service life is increased, but the wear is not uniform, so that unevenness in the rubber coating can arise, which result in poor release of the matrices. Because because the revolving 'rollers only each time a line is sent and not are shifted sideways while placing, they hit the repeated in a row eccentric disks assigned to the matrices always at the same points of the Rollers.

According to the invention, those of the known devices are still adhering to Disadvantages avoided by the fact that the lifting disc drive for a steady, slow and uniform zone shifting of the drive rollers of the tracer unit via a worm or helical gear drive not participating in the zone shift of the roller shaft itself is derived. It is true in other areas of technology already known, rollers, e.g. B. to push inking rollers of printing units steadily back and forth, however, such constructive means have been found in die setting and line casting machines has not yet been used for the stated purpose, although it is in its simplest form Way to eliminate the deficiencies that have occurred so far.

An exemplary embodiment of the invention is shown schematically in the drawing shown, namely Fig. i shows the device controlling the roller according to the invention and the corresponding roll end in view (partially cut), Fig. 2 a Plan view of FIG. I and FIG. 3 shows a side view of FIG.

In the feeler mechanism housing i, by means of the bearing bushes 2, the shaft q carrying the roller 3. rotatable and longitudinally displaceable. One end of the shaft [is] extended beyond the housing i and is coupled, for example, by means of tongue and groove 5 to a worm 6 carried by this peg-shaped shaft end. The worm 6 rests against the bearing 2 with a collar 7 and is held in this position by two stationary holders io, which are fastened for example to the housing i by means of screws 8 and prison pins g and which grip over the collar 7, so that the worm 6 the rotations of the shaft q. participate without taking part in their lateral shifts. On the shaft end carrying the worm 6, a washer ii of a larger diameter than the roller 3 is fastened inside the housing i. A worm wheel 12, designed as a lifting disk, engages with worm 6 and is mounted in a bracket 1, which is fastened to housing i, for example by means of screws 13. On the one hand, the worm wheel 12 has an eccentric annular groove 15, and the degree of its eccentricity with respect to the worm wheel I2 corresponds to the intended zone displacement of the shaft q. or roller 3. In the groove 15, the roller 16 of a slide 17 is guided, which is mounted longitudinally displaceable in the housing i and whose other fork-shaped end 18 is the collar disk ii of the roller shaft q. encompasses and is expediently directed according to the axis of rotation. The entire gear located outside of the probe mechanism housing i can be encapsulated so that its parts are constantly moving in an oil bath.

Both instead of the worm gear 6, 12 and the eccentric Annular groove 15 can of course any other devices, for example at an angle Toothed helical gears or the like, on the one hand and crank drives on the other will.

The device works as follows: As a result of the revolutions of the the machine in a known manner driven shaft q. is via the screw 6 designed as a lifting disc worm wheel 12 rotated very slowly, with through appropriate dimensioning is ensured for a sufficiently large gear ratio. Here Of course, the eccentric annular groove 15 also rotates around the center of the worm wheel 12 and gradually moves from the one outermost position shown in FIG the other outermost layer indicated by dash-dotted lines in FIG and vice versa. The roller 16 guided in the annular groove 15 is thus parallel to the Longitudinal axis of the shaft q. pushed back and forth by the amount of the eccentricity mentioned. But this also becomes the slide 17 and, via its driver fork 18, the collar disk i i, d. H. so the wave q. or roller 3 in the same way during their rotational movement steadily and due to the mutual displaceability between the shaft cl and Screw 6 is also pushed back and forth evenly in the direction of its longitudinal axis.

Claims (3)

PATENT CLAIMS: i: Tracer unit of a die setting and line casting machine with a lateral zone shift of the continuously rotating drive rollers for the eccentric discs, characterized by the derivative of the lifting disc drive for a steadily slow zone shift of the roller (3) from the roller shaft (q.) via a worm gear (6, 12), in such a way that the worm gear is shifted to the zone does not participate. 2. Transmission according to claim i, characterized in that the worm (6) is coupled to the shaft (¢) that drives it by means of a tongue and groove (5), at the lateral shift, however, by means of stationary ones that reach across their collar (7) Holder (io) is prevented. 3. Transmission according to claim i, characterized by the design of the worm wheel (12) as a lifting disc with an eccentric annular groove (1 5) in which the roller (16) of a slide (17) is guided, the other fork-shaped end (18) of which a Collar washer (ii) of the roller shaft (q.) 'Encompasses.