SU1117815A1 - Autonomous electric-power supply seed of traction - Google Patents

Abstract

AUTONOMOUS POWER SUPPLY SYSTEM, containing a synchronous generator with a main crust winding and an additional crust winding, executed by three times the number of pole pairs in relation to the main crust winding, a saturation throttle with a working winding and a control winding, two current limiter and two mittels, and a working winding winding and a control winding, two current limiter and two mittels, and the operating winding winding and control winding, and two current limiter and two mittels, and the operating winding winding and control winding, and two current limiter and two mittels, and the operating winding winding and control winding, and two current limiter and two mittels, and the operating winding winding and control winding, and two current limiter and two mittels, and the operating winding winding and control winding, and two current limiter and two mittels, and the operating winding winding control winding and two winding wires, and two windings, and a winding control winding control winding saturation through the first current limiter is connected in parallel with the auxiliary core winding of the generator and through the first rectifier in parallel with the excitation winding of the generator, d peremetsnogo second current rectifier is connected to the anchor pin main winding of the generator through a second current limiting element, and the output of the DC rectifier coupled to the control winding dros§ sat nasscheni,. different from that, s. in order to simplify and (L) reduce the cost, a third rectifier is additionally introduced in it, the AC input of which is connected to the terminals of the additional crust winding, and the DC output is connected according to and parallel to the output of the second rectifier.

Description

1 The invention relates to electrical engineering and can be used to regulate the excitation current of synchronous generators from the excitation from higher field harmonics used in stationary and mobile autonomous electrical installations. Autonomous electrical installations are known in which the generators are provided with an additional main winding, which is compared to the main main winding by a tripling number of poles, the conclusions of which through a rectifier are connected to the field winding. In the additional winding, a triple frequency EMF is induced both from the inductor floor and from the fields of the longitudinal and transverse reaction of the core. As a result, the EMF of the additional winding has characteristics close to the control voltage. The disadvantage of this power system is low control accuracy, since when the power factor of the load changes, the proportionality of control is disturbed in order to increase accuracy, voltage regulator is required, which complicates the system. An autonomous power supply system is known, in which the additional and main windings of the generator through rectifiers are parallel and in agreement with the winding of the building, which improves the regulating ability of the 2J system. However, this system is used when the power of the additional winding when the generator is idling is sufficient to provide the required excitation current. With optimal development of autonomous power supply systems driven by the third harmonic field, taking into account the whole complex of requirements, the power of the additional winding at idle speed is relatively higher, and at a nominal generator load, this leads to the fact that during self-excitation Generator ratings do not meet standard requirements. A voltage corrector is used to maintain the voltage with the required accuracy. The closest technical solution to the invention is an auto5nom power supply system containing a synchronous generator with the main core winding and an additional one performed for the morning number of steam chutes with respect to the main core winding, an adhesion choke with a working winding and a control winding for the current limiter and two rectifier, with the working winding of saturation throttles connected through the first current limiter in parallel to the additional core winding of the generator and through the first rectifier of steam llelno ob-. The generator's coil, the alternating current input of the second rectifier is connected to the generator main core winding through the second current-limiting element, and the DC output of this rectifier is connected to the control winding of the saturation throttle. The corrector includes a magnetic amplifier that provides automatic maintenance of the generator voltage with the required accuracy over a wide range of variation (current limiter — setpoint potentiometer) of the installed voltage regardless of the generator thermal state and the surrounding temperature. Wednesday h. However, the presence of a voltage corrector significantly complicates the device and increases its cost. The aim of the invention is to simplify the autonomous power supply system and to reduce its cost. The goal is achieved by the fact that in an autonomous power supply system containing a synchronous generator with the main core winding and an additional core winding made three times the number of pole pairs in relation to the main core winding, a saturation choke with a working winding and a control winding, two current limiters and two rectifier, and the working winding of saturation throttles is connected in parallel through the first current limiter in parallel with the additional core winding of the generator and through the first rectifier in parallel About the generator excitation winding, the alternating current input of the second rectifier is connected to the generator main core windings through the second current-limiting 3 element, and the DC output of the downstream pairs is connected to the control winding of the saturation droplets, a third rectifier is introduced, the AC input of which is connected It is connected with the leads of the additional core winding, and the DC output is connected according to and parallel to the output of the second rectifier. The drawing is a schematic diagram of an autonomous power supply system. The autonomous power supply system consists of a synchronous generator 1, on the core of which the main root winding 2 and additional root winding 3 are jointly arranged for the tripled number of tiap poles relative to the main winding 2. The generator excitation winding 4 through the first rectifier 5 and current-limiting element 6 is connected to the additional cores of the winding 3; parallel to the input of the alternating current, the connectors 5 are switched on; the working winding 7 of saturation drops 8, the control winding 9 through the second rectifier 10 is connected with the outputs of the main crust winding 2 of the synchronous generator through the current limiting element 11. The additional rectifier 12 is connected to the additional winding 3 by the AC input, and the DC output 10 is connected in parallel with the second rectifier 10 through the matching resistor 13. The device works as follows. When the generator 1 is operated, an additional winding 3 provides the current through the excitation winding 4 through the current limiting element 6 and the capacitor 5. The current flowing from the main winding 2 through the rectifier 10 and the control winding 9 of the saturation throttles 8 causes a current. in the winding 7 of the alternating current droplet, consequently, and in the additional winding, creating a voltage drop in the latter. Regardless of the value of the EMF of the additional winding, this drop is unchanged, since with this statute, the voltage is almost unchanged And H-ca from the main winding. 15. 4 In fact, a decrease in the voltage of the additional winding at idle is relatively higher than with the generator load, i.e. the shape of the characteristics of the additional winding is approaching to the adjustment characteristics of the generator. In the winding of the throttle control with bias current limiting element 11, a current is established at which the generator voltage at idle and rated load is equalized. Further, during operation, the parameters of this element are not subject to change. Connecting the additional winding through the converter 12 to the winding 9 of the control of the throttle 8 allows you to obtain the required voltage settings and compensate for its thermal leads by changing the resistance of the terminating resistor 13. It is possible to connect the variable-voltage rectifier 10 to one more additional matching according to the single corona winding made the pitch of the main winding and located on the same magnetic circuit. Rectifier 12 provides the same control effect as when connected to the main winding. The transmitter 12 can be connected either to the additional winding 4 or to the input and output of the current-limiting element 6.. Thus, the implementation of the autonomous power system of the present invention allows the additional winding characteristics to be adjusted to the generator's adjustment characteristics, and the third rectifier introduced allows obtaining the required voltage settings, compensating for the generator thermal power and fully taking advantage of the additional core winding to triple the number of poles , consisting in its adjusting ability. The above implementation of the autonomous power system allows the complex corrector with a magnetic amplifier to be extracted from the control system, which greatly simplifies the power system and reduces its cost.

Claims (1)

AUTONOMOUS POWER SUPPLY SYSTEM, comprising a synchronous generator with a main anchor winding and an additional anchor winding, made for triple the number of pairs of poles in relation to the main anchor winding, a saturation inductor with a working winding and a control winding, two current limiters and two rectifiers, and a working winding of the saturation inductor through the first current limiter is connected parallel to the additional anchor winding of the generator and through the first rectifier parallel to the excitation winding of the generator, the input the alternating current of the second rectifier is connected to the terminals of the main armature winding of the generator through the second current-limiting element, and the DC output of this rectifier is connected to the control winding of the saturation inductor, which differs in that, p. In order to simplify and reduce the cost, a third rectifier is additionally introduced into it, the AC input of which is connected to the terminals of the additional anchor winding, and the DC output is connected according to and parallel to the output of the second rectifier. SUnn 1117815>