DE667831C - Control for the drives of brush adjustment devices for collector machines - Google Patents

Description

Control for the drives of brush adjustment devices for collector machines When using collector motors as drives for rotary machines where The speed of the drive motors can be changed in a very short time, are many the brush adjustment devices are driven by asynchronous motors. If at the same time there are several collector machines in a rotary machine group it is necessary that the brush adjustment devices in the same. Way to everyone Motors act. To achieve this, the drive motors for the brush adjustment device were used provided with synchronizers, for example they were equipped with special Synchronous machines coupled.

In the known devices now has the disadvantage that the Speed of the drive motors causing the brush adjustment independently on the direction of rotation of the motors. Especially with the drives for rotary printing machines but it depends on certain control processes. to shorten the dead time as much as possible to execute quickly. This is achieved according to the invention in that for the return of the brushes in. . the zero position for the purpose of stopping the drive the actual Brush drive motors switched off and the synchronous machines necessary to achieve the synchronizing effect anyway a lower number of poles than the actual drive motors have to be used as drive motors for the brush bridge. As it is in general It is advantageous to operate the synchronous machines in single phase so that they are the correct ones Take phase position against each other, must for the drive as drive motors a The synchronous machines can be switched to three-phase operation. This means that when the brush bridge is returned, there is synchronization between the brush adjustment devices several drive motors are available, can be in the rotor circuit of the synchronous machines a slip resistor can be switched on. With such a device, can for example, if the brush drive motor is designed as a six-pole machine and the synchronous machine as a two-pole machine, the feedback in one Run third of the time it would take, albeit for repatriation the drive motors for the brush bridge would be used.

An exemplary embodiment of the invention is shown in the drawing.

r and a are the three-phase collector motors that drive the rotary printing presses to serve. The motors can be coupled mechanically through the shaft 3. 4 and 14 are the Brush adjusters that by the asynchronous motors 5 and 15 are driven. The asynchronous motors are connected to switches 6 and 16 the rotating power supply R S T. With the drive motor @ `# .; are the synchronous machines 7 and 17 21115 couples. The runners of this synchronization mask are via the switch 8 electrically connected to each other with = '. The stands are above the switches 9 and 1o or 19 and 2o also on the network RST. The slip resistance is in the rotor circle i i can be switched on via switch 12.

The operation of the device: .is the following: To raise the The asynchronous motors 5 or 15 are switched via the switch 6 or 16 connected to the three-phase network. The synchronous machines 7 and 17 are single-phase Connected to the mains on the stand side, in which the switches 9 and 1g are inserted are. At the same time the switch 8 is closed. This results in synchronism guaranteed between the drives for the two brush adjustment devices. To achieve an acceleration of the return = run of the brush bridge, the Drive machines 5 and 15 are disconnected from the mains by opening switches 6 and 16. At the same time, the synchronous machines 7 and 17 by closing the switch 1o and 2o three-phase connected to the network and the slip resistance i i in the rotor circuit is switched on by closing the switch 12. So now work the synchronous machines 7 and 17 provided with a smaller number of poles as drive motors for the brush bridges and cause their return to be accelerated. By choice the return speed of the brush adjustment device is possible, the Reduce the shutdown time of the commutator motor itself by wiping it genera works and thus causes a deceleration of the entire rotary machine.

° 'In the exemplary embodiment, there is only the use of the brush adjustment device Shown with two drive motors, it can do the same for the brush adjustment device a larger number of three-phase collector motors can be used.

Claims (3)

PATENT CLAIMS: i. Control for the drives of brush adjustment devices for collector machines by means of asynchronous motors coupled with synchronous machines, characterized in that for returning the brushes to the zero position the asynchronous motors are switched off and the synchronous machines, which are less Pole number than the asynchronous motors have used as the drive motors of the brush bridge will. 2. Control according to claim i, characterized in that the synchronous machines connected single-phase while the asynchronous motors are working as drive motors are while they are for the return movement after switching off the actual drive motors can be connected in three phases. 3. Control according to claim 2, characterized in that that after switching off the drive motors -in the rotor circuit of the synchronous machines a slip resistance is switched on.