SU147660A1 - Apparatus for driving and compounding low-power synchronous generators - Google Patents

Description

Devices are known for the initiation of D and the compounding of low-power synchronous generators, containing a stabilizing transformer composed of two separate three-phase magnetic conductors, one of which has three-phase primary voltage windings and another TOKo ie winding, and the three-phase secondary winding feeds through the rectifier Press the exciter winding of the generator. The transFeed ° P 3 orz windings connection scheme and their mutual arrangement have a number of drawbacks, which lead to the fact that the known devices do not provide without significant additions (additional connections of chokes, capacitors, etc.) to optimal conditions for voltage stabilization i -the generator depending on its changes at different values of the Cient coefficients of the load power C08f.

The proposed device differs from the fact that the current windings of the stabilizing transformer, each of which consists of two equal parts located on different rods of the magnetic circuit, are connected in a zigzag, and the secondary winding covers the rods of both magnetic cores with primary current windings located on them tension This makes it possible to increase the degree of voltage stabilization with changes in soot from zero to one and a change in load from idling to nominal without the use of any additional elements (chokes, capacitors, and t, P-), complicating the device.

To adjust the parameters of the stabilizing transformer when selecting it to the generator and selecting the most favorable compounding conditions, openings are made in the transformer’s frames and movable magnetic shunts are placed in them.

FIG. 1 shows a stabilizing transformer in two projections with a partial section; in fig. 2 is a wiring diagram for the windings of a stabilizing transformer.

No. 147660- 2 The stabilizing transformer has three windings placed on two separate three-phase magnetic cores: a three-phase primary current (serial) winding, located on the magnetic circuit M, a three-phase primary winding, for example, HE (shunt) located on the magnetic core and on the magnetic conductor and on the magnetic conductor and on the magnetic conductor M and on the magnetic conductor and on the magnetic conductor M. yy day obad / otku VO (in Fig. 2 BOi, VO, VO), covering in each phase the strings of both magnetic tapes: g; g :. with primary current and voltage windings located on them.

To provide the most favorable compounding conditions and phase shifts between compounding current5; load current g / and compounding current over the voltage of generator 1 and the connection circuit of the windings of the stabilizing transformer shown in FIG. 2

Each current winding TOi, TO and TO consists of two equal parts, each of which is included in different phases of the zigzag scheme so that the magnetic fluxes of the current windings located on the same core of the magnetic core are folded. The windings of the ОН ОН and О / // 3 voltage, each of which is located on a separate sterol of another magnetic conductor, are included in different phases in a circular order. The voltage obmotka O //, located on the first rod, is connected to the secondary winding TO of the second rod, the voltage winding OH from the second rod is connected to the current winding 7Оз on the third rod g; the coil of the voltage of the SND is located on the third rod. “: -lea to: current winding 70 of the first rod.

In this case, it is necessary to have in R-go that, if the winding of the voltage of the OT) is connected to the current one about ivif-. TOz of the second rod, then the second part of this current winding is D (5lzhna be located on the first rod of the magnetic circuit for current windings. Similarly, if the winding of the second type OLA windings is not connected to the current winding of the third rod, -JQ is the second part of this winding located on the second rod, the voltage winding from the third rod should be pdcc; very close to the current winding of the first phase, and the second part of this current winding should be located on the third rod f. the windings of the voltage in the reverse order of 120 °, the current windings. qQJJ {f y, also be switched in full accordance with the instructions given above.

The applied scheme of connection of the windings of the stabilizing transformer ensuring e is the phase angle between the compounding current and the load current, the compounding current to the generator voltage h closex,. Turning on the voltage windings in a circular order to different phases provides a phase shift of the magnetic rtoTOKa and currents in the voltage winding phase relative to the magnetic flux and current of the winding by 120 °, and turning on the current winding according to the zigzag scheme reduces this angle by 30 °. it turns out that the phase angle between the magnetic fluxes of the shunt and serial magnetic circuits, and equally between the compounding currents from the current winding and the voltage winding is 90 ° with a purely active load and 0 ° with a purely inductive voltage. The load, i.e., provides optimum stress control conditions for variation. The total magnetic flux of the secondary winding of the stabilizing transformer is equal to the geometric sum of the magnetic fluxes generated by the current windings and voltage windings, and the generator excitation current at each time instant is equal to the geometric sum of the currents proportional to the load current and the generator voltage.

To regulate the parameters of the stabilizing transformer, holes were made in its frames and movable magnetic slots fitted to the sizes of the holes were placed in them. Adjusting the parameters is done by pushing and pushing the shunt.

By recalling the separation of mechanization to the electrification of agriculture of the AASA of the BSSR, the proposed device works reliably, with active inductive load, ensures the proper start of asynchronous short-circuited electric motors from generators having a power comparable to the power of the electric motors, and provides a good boost of excitation with a sharp increase in load and reducing the excitation current during load shedding.

Subject invention

Claims (2)

1. A device for exciting and compounding low-power synchronous generators containing a stabilizing transformer composed of two separate three-phase magnetic conductors, one of which contains primary three-phase voltage windings and another current, and a three-phase secondary winding feeds the excitation winding of the generator , characterized in that, in order to increase the degree of voltage stabilization and simplify the device, its current windings are connected in a "zigzag, and the secondary winding covers AET magnitoirovodov both rods with the inserted on them primary windings (current and voltage). 2. The device according to claim 1, characterized in that, in order to select the optimum compounding conditions for adjusting the parameters of the stabilizing transformer, holes are drilled in the frames of the magnetic cores and movable magnetic shunts are placed in them.