SU712904A1 - Power-diode motor - Google Patents

Description

on thyristors and contain a reverse rectifier 7, a control system 8 and a switching device 9.

The power source 2 may be a direct voltage network, a battery, or an alternating voltage network in conjunction with a rectifier.

The main independent field winding is connected to the terminals of a direct current source. An additional field winding is included at the output of the reverse rectifier in such a way that the flow created by it acts counter to the main independent winding field.

The control system provides the necessary switching of the thyristors of the switch according to the signals of the rotor position sensor, as well as the disconnection of the reverse bridge using a switching device when the engine is started.

Valve motor works as follows.

The main excitation winding 5 ensures the operation of a valve motor with natural switching of thyristors at a nominal load, i.e. the flow created by the main winding ensures the operation of the motor with a slightly leading stator current. When the load decreases, the engine is over-excited, and the power factor cos f is significantly reduced. Therefore, to maintain a high value, it is necessary to reduce the main excitation winding .-- -When switching on the additional excitation winding 6 opposite the main circuit of the reverse rectifier 7, i.e. and significant improvement in engine performance.

Both excitation windings are located at the same poles of the rotor, and in the case of a contactless synchronous machine with a claw-shaped poles can be made stationary.

Thus, during the operation of a valve engine in systems with frequent load changes, the presence of additional

field winding provides automatic maintenance of high power factor in a wide range of load changes, reducing active losses,

more efficient use of the machine as a whole, moreover, the switching conditions of the switch gates are improved. The start of the valve motor can be carried out, for example, by the method of asynchronous start-up from the AC network. In this case, the switching device must ensure that the additional excitation winding is turned off during start-up. If it is necessary to operate the valve engine for a long time in overload conditions, it is possible to consistently activate both excitation windings, which can increase the range of stable operation of the engine.

Laboratory testing and calculation

data showed that the valve engine put on: en in operation. Maintaining high power factor and efficiency is made easier than with known gate valves.

engine x

The engine can be used in systems with frequent underloading, for example, in the metalworking, woodworking and other industries.

Claims (2)

1. US Patent No. 3866099, cl. 318-254,1975. 2. Japanese Patent N ° 49-38890, cl. 55C 2, 1974.