DE182694C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JV * 182694 - CLASS \ 5d. GROUP

in PLAUEN i.V.

Auxiliary drive device for rotary printing presses. Patented in the German Empire on May 29, 1906.

For driving high-speed rotary presses for paper feeding, trimming, registering etc. Hand cranks are usually used, which have to be operated by unskilled workers. This is tedious and time consuming due to the high gear ratios. In addition to this inconvenience, there are the annoying commands from the engineer "Forwards, backwards, slowly, stop, etc."

ίο add which in a hall, in which several rotary machines are running, are difficult to understand and the vocal organ of the Not insignificant take up the callers.

The subject of the present invention is now an automatically coupling and uncoupling Auxiliary drive device, which the machine master alone and by several suitable places on the machine from

ao can be used.

In the drawing, Fig. I shows an exemplary embodiment of the drive device in side view and Fig. 2 shows the same in cross section along line AB of Fig. I. Fig. 3 shows a diagram of the circuit of the electric motor and the electromagnetic clutch with the various groups of input and circuit breakers, which are attached to the rotary machine in any number. ^ In Fig. 1 and 2, 1 is the electric motor, which. drives the reduction clutch 3 through a leather disc clutch 2. On the driving shaft end of the reduction clutch 3 there is a gear 4 which engages in the gear 5 which is loosely seated on the shaft 15 and which is stationary during printing; According to the invention, this wheel 5 is not coupled to the shaft 15 until the auxiliary drive is to be engaged.

This is done by the two electromagnets 6, which are attached to cross pieces 7 are. The latter are attached to the wheel spokes of 5 with screws 8. On the cross pieces 7 there are hubs 9 in which the bolts 10 are guided. These bolts IO are rigidly connected to the armatures 11, which are located in front of the magnetic cores 12. On the Bolts 10 are compression springs 13, which strive to the anchor Ii of the Magnetic cores 12 to push off.

The disk 14 is on the drive shaft 15 wedged and provided with circular arc-shaped recesses 16. The wire spools 17 serve to excite the magnetic cores 12. '55

In FIG. 3, the registered reference symbols have the same meaning as in FIG. 1 and 2, namely 1 is the motor armature; I, II, III, IV are the field windings of the motor, 17 the excitation coils for the magnetic cores 12. With 18 and 19 in Fig. 3 are the inputs and Switch-off devices referred to, which at different points of the rotary machine are attached .. 20 and 21 are the power lines to which the whole facility connected.

The mode of operation of the device is now as follows:

Should the rotary machine be used for the purpose of drawing in the paper or other work are put into operation, so z. B. the switch 18 is turned on. This takes the electric current flows its way from 21 to one pole of the switch 18 • the field windings I, II, III, IV of the motor and returns to the other pole of the switch 18, goes from here to the anchor ι des Motor, then on to the coils 17 of the electromagnets 12 and finally back to the power line 20. Here, the motor ι and the magnetic coils 17 are one behind the other switched. So as soon as the motor is turned on and receives power, so will the magnetic cores 12 are excited, the armatures 11 are tightened and the bolts 10 are pressed onto the disk 14. As soon now the bolts 10 get in front of the recesses 16 of the disk 14, they step into the same and thus couple the auxiliary drive wheel 5 to the drive shaft 15 in the manner of known claw couplings.

If the auxiliary drive device is to be disengaged again, the has Machine masters simply turn off switch 18, which removes the motor and solenoid coils become de-energized. By the compression springs 13, which earlier by the When the armatures 11 are tightened, the latter are tightened by the magnetic cores 12 torn off and at the same time the bolts 10 removed from the recesses 16. The machine is therefore again decoupled from the drive device and the machine can now be switched on for printing as required will.

4.0 Now it also happens that for certain work to be carried out on the rotary machine, its direction of rotation must be opposite. For this purpose, suitable switches 19 can be used, which cause the current to flow in the opposite direction ¹ through the field winding of the motor and thus change the direction of rotation of the motor. The other effect of the device remains exactly the same as described above.

The overall arrangement can of course also be different, e.g. B. is it possible the electromagnetic clutch device through other intermediate links on the drive shaft 15 to let work. The circuit of the motor described above with the electromagnetic coils has the purpose of a special switching device for the latter to spare. It is also intended when the clutch is switched on to achieve an increased initial effect, since it is known that the first current surge occurs when Switching on the motor is a multiple of the operating current and therefore the electromagnet the coupling is initially more strongly influenced, which means that the large air space between the armature and the cores has to be overcome is essential.

Claims (2)

Patent Claims: 1. auxiliary drive device for rotary printing presses, characterized in that one between a reversible auxiliary drive electric motor and the high-speed rotary press Activated, electromagnetically operable clutch through a switching network with various parts the machine arranged power switches is connected. 2. Device according to claim .1, characterized in that the field windings (I, II, III, IV) of the electric motor (1) in the same circuit as the excitation windings (17) which excite the magnetic cores (12) of the clutch Power line lying on. 1 sheet of drawings.