DE853906C - Method for adjusting the drive of a sheet feeder in printing machines - Google Patents

Description

Method for adjusting the drive of a sheet feeder in printing machines the The invention relates to a method, the sheet feeder opposite the printing press set so that the sheets at the desired time at the front lays of the Printing press arrive. The increase in the number of tours has a great reduction in speed the available berthing time with it, so this setting must be very precise. Even minor inaccuracies in the arrival of the bow can occur lead to passport differences. The different number of tours when printing or the different surface properties and thickness of the paper can already Inaccuracies when the sheet arrives at the front lay with it that an adjustment compared to the assembly-related setting is necessary.

To compensate for this, a method is proposed which provides a device in the drive of the sheet feeder that it during of the running of the printing press allows the functions of the investor compared to the To offset the printing press in time. Since the sheet feeders are of different types are and their drive can be very different, the device is provided to connect organically with the printing press.

The devices to be used for the process consist of gears known design.

In this way, all gearboxes can be used that enable to offset one rotational movement in relation to another in time.

A known adjusting gear is advantageously used, which consists of an input and an output shaft with a helical gear Helical gear pair are connected to each other. With an axial displacement of the a The change in drive over time takes place between the helical gear and the other of the sheet feeder opposite the printing press.

The adjustment can be carried out by means of an external handwheel will. The shafts can also be in a sleeve provided with oblique slots be stored, in each of which a pin stuck on the shafts leads. When moving the sleeve, the desired time offset also occurs one wave to the other.

The figures show three exemplary embodiments according to the invention reproduced by known devices to explain the method. Fig. I shows part of the printing machine with a drive for the sheet feeder, Fig. 2 an adjusting gear, which is made up of the mutually parallel and angled toothed helical gear pair provided input and output shafts, Fig. 3 an equiaxed arrangement of the output shaft of the machine and the drive shaft of the Sheet feeder with an axially displaceable sleeve and Fig. 4 an adjusting gear with two waves crossing each other.

With the printing machine I this is explained in more detail in FIGS. 2 and 3 Adjusting gear 2 organically connected. The sheet feeder 4 driven and the sheets 5 brought over the belt table 6 to the front lay 7.

The adjusting gear 2 shown in Fig. 2 consists of the output shaft 8, on which a gear wheel g is fixedly arranged, this drives the one on the bolt 10 loosely rotatably mounted gear II. The gear II is organic with a bevel Toothed wheel I2 connected, whose teeth are in one on the drive shaft I3 of the sheet feeder 4 engaged helically toothed wheel 14.

The bolt 10 is mounted in the housing walls I5 and I6, through a handwheel I7, the bolt Io is axially displaceable, which also causes the gearwheel 11, I2 shifts and at the same time through the helical teeth of the wheels 12 and 14 a relative rotation of the shaft I3 with respect to the shaft 8 is achieved.

In Fig. 3, the shafts s8 and 19 are arranged coaxially, these store in an axially displaceable sleeve 20, which is provided with inclined slots 2I, 22 is provided. In each of these slots engages one that is stuck on the shafts I8, I9 Pin 23, 24 a. When the sleeve 20 is axially displaced, the rotates two shafts I8, 19 relative to each other.

Fig. 4 shows a further embodiment of a variable speed drive, and with two intersecting shafts 25 and 26. On each of these shafts there is a helical gear 27 and 28, of which the wheel 28 is axially displaceable on a wedge 29.

By moving the wheel 28, the desired adjustment takes place the rotary movement as well as in the embodiments described above.

The transmission designs shown and described are examples; all other types of transmission can also be used to carry out the method come that allow a rotational movement relative to another temporal offset.

Claims (6)

PATENT CLAIMS: I. Method for adjusting the drive of a Sheet feeder in printing machines, characterized in that in the drive of the sheet feeder an adjusting gear is provided, which it during the running of the printing press allows its functions to be offset in time compared to the Drudkmasohine. 2. The method according to claim 1, characterized in that the adjusting gear is arranged on the printing machine. 3. Apparatus for performing the method according to claim I, characterized characterized in that one parallel to one another, with one axially to one another displaceable helical gear pair provided input and output shaft is arranged. 4. Apparatus for performing the method according to claim I, characterized marked is that the rotational movement of the consisting of two intersecting shafts The drive is transmitted from one to the other of the two shafts through a pair of helical gears is, of which one of these wheels is displaceable in the axial direction. 5. Apparatus for performing the method according to claim I, characterized known draws that the input and output shaft at the same time in a known per se axially displaceable sleeve are arranged, the sleeve with oblique slots is provided, in each of which engages a pin fixed on the input and output shaft. 6. Apparatus for performing the method according to claim I, characterized characterized in that a known planetary gear is used as an adjusting gear is arranged.