DE1032371B - Device for synchronizing an electric shaft consisting of a shaft generator and at least one shaft motor - Google Patents

Description

Device for synchronizing one of a wave generator and at least one shaft motor consisting of an electrical shaft An electrical shaft can be synchronized at a standstill in the circuit that has been common since then. In In some cases, however, it is desirable to construct the shaft so that the synchronization can also be carried out with the shaft generator running. This is e.g. B. the Case with a lathe, which may be the shaft motor on your support is temporarily used as an asynchronous motor for quick adjustment, during which the main drive should not be switched off. This requirement the device is fair, which is constructed according to the invention so that the current Shaft generator excited by direct current, the shaft motor fed by it via Resistors ramped up asynchronously and after ramping up to synchronize Direct current is switched, whereupon both machines are synchronized with the Three-phase network can be switched.

You can open the device according to the invention in this way. that the current one The shaft generator is excited by direct current on the stator side, the shaft motor via Resistors connected to the stator of the shaft motor are raised and that after you start up the stator of the shaft motor to synchronize is switched to direct current, whereupon the stator of the wave generator and of the shaft motor can be switched to the three-phase network7.

But you want to. what for certain purposes, e.g. ß. for <las overlap after switching to the AC network in the synchronized state, advantageous is to have a separation of the direct current source from the alternating current network, so is it is expedient to set up the device in such a way that the running shaft generator is on the rotor side is fed by direct current, the shaft motor through resistors attached to the rotor are connected, is started up and that after starting up the runner of the Shaft motor is switched to direct current for synchronization, whereupon the Stands of both: machines on rotation, turned on and the rotors from the direct current source be separated.

The electric wave can here from a generator and from a Shaft motor or consist of several shaft motors. Switching the DC powered Stator or rotor of the shaft generator and shaft motor on three-phase current can here be carried out in such a way that a run takes place with or against the rotating field.

An embodiment according to the invention is shown in the drawing explained.

The shaft to be synchronized consists of your drive motor .4 driven shaft generator G and the shaft motor _71-T. The runners of both Machines are connected to each other in phase. To suppress equalizing currents, that can arise when synchronizing is in the connection line of both Rotor connected a resistor r4, which is through the three-phase contactor C; shorted can be. The wave generator G and the wave motor M are connected to the rectifier n, supplied DC voltage or to the three-phase network RST. The rectifier iil is connected to two phases of the three-phase network via the transformer m3.

The DC voltage is supplied to the wave generator through contactors C4 and C3 G and when contactor C4 is closed, it is also fed to the shaft motor M via contactor C. When contactor C4 is open, connection to the three-phase network is via the contactors Ci or C. "which cause the shaft to run with the rotating field or against the rotating field.

For asynchronous starting of the shaft motor M, the short-circuited Resistors rt provided, which can be switched on and off by contactor C5.

The device according to the invention works as follows: After switching on the contactors C4 and C3 are the wave generator G on the stator side by direct current fed, creating a stationary field. The one from the drive motor A driven shaft generator then works as a synchronous generator and feeds the Rotor of the shaft motor M. By switching on the contactor C, the shaft motor 31 started up asynchronously; after powering up, opening the contactor C5 and closing the contactor C8 of the shaft motor also on the stator side to that of the rectifier n DC voltage connected. Of the Shaft motor 1l1 now runs synchronously with the shaft generator G. By opening the contactor C4 and the closing of contactor Cl or C2 become the stator of the wave generator G and the shaft motor M are connected to the three-phase network, which has the consequence that the electric wave now works in the usual way.

When the contactor Cl is switched on, the shaft runs with the rotating field, when switching on contactor C, against the rotating field. In the stator circle of the wave generator G is the resistance r2 and in the stator circuit of the wave motor M the resistance r2 provided. These resistors are used to compensate for the differences in the fields generated by direct current. When connected to the three-phase network, these Bridged resistances.

Contactor C3 has the task of operating the shaft motor alone M to switch off the shaft generator G on the stator side as an adjusting motor.

It is possible to use a wave generator without any additional effort G and a shaft motor 1.1 existing shaft to connect a further shaft motor.

Claims (7)

PATENT CLAIMS 1. Device for synchronizing one of one Shaft generator and at least one shaft motor consisting of an electric shaft, characterized in that the running wave generator (G) is excited by direct current, the shaft motor (M) fed by it started up asynchronously via resistors (r1) and after start-up is switched to direct current for synchronization, whereupon Both machines are switched to the three-phase network in synchronism. 2. Establishment according to claim 1, characterized in that the running wave generator (G) is on the stator side is fed by direct current, the shaft motor (A1) via resistors (r1), the are connected to the stator of the shaft motor (111), is started and that after starting up the stator of the shaft motor (M) to synchronize Direct current is switched, whereupon the stands of both machines are connected to the three-phase network (RST) can be switched. 3. Device according to claim 1, characterized in that that the running wave generator is fed by direct current on the rotor side, the Shaft motor started up by resistors (r1) connected to the rotor and that after starting up the rotor of the shaftinotors (i11) for synchronization is switched to direct current, whereupon the stator from the wave generator (G) and from the shaft motor (M) to three-phase current (RST) and the rotors of both machines be disconnected from the DC power source. 4. Device according to claim 2 or 3, characterized by reversing contactors (Cl, C2) the stator of the wave generator (G) and the shaft motor (17) are switched to the three-phase network (RST), that a run occurs with or against the rotating field. 5. Device according to claim 1 or 2, characterized in that the rotor of the shaft generator (G) with the line connecting the rotor of the shaft motor (11) a short-circuited compensation resistor (r4) is provided. 6. Device according to claim 1 to 5, characterized in that that resistors (r2 and r2) are provided for the precise setting of the direct current fields serve in the wave generator (G) and in the wave motor (M). 7. Device according to claim 1 to 6, characterized in that means are provided which allow the connection of a further shaft motor to the electric shaft consisting of the shaft generator (G) and the shaft motor (M). Considered publications: German Patent Nos. 906353, 906823, 917855.