SU892576A1 - Generator system - Google Patents

Description

CtS) GENERATOR INSTALLATION

The invention relates to electrical engineering, in particular to alternators, for example, of an autotractor type, operating in parallel. Known systems of alternators operating in parallel. In order to evenly distribute the load between parallel-running generators, regulated by complete regulators, two additional resistances (shunt) are included in the load circuit of the generators. The circuit contains two transistors, the base circuits of which are included in the indication of additional resistances. Transistors give a signal to the input of each of the regulators WITH. A disadvantage of the known circuit is the inclusion of additional resistances in the power circuit, which creates an additional voltage drop in the load circuit, the variation in the magnitude of which affects the quality of the alignment of the voltage and current given by each generator. In addition, this solution requires the release of new special regulators intended only for parallel operation, which leads to a different unified installation, in which the uniform load distribution between the generators is carried out by wiring; the input voltage divider of regulators fz.4 is achieved. targets are accomplished by a very complex and expensive circuit containing four transformers, two rectifiers, two relays, which also requires the manufacture of a new type of controller designed for but for parallel work. Also known is an installation where load balancing is carried out by acting on driver circuits of regulators using equalizing windings 3. 3 However, this scheme also requires the release of special regulators having these windings, and is acceptable only for vibration regulators of voltage, t . does not possess universality. The closest to the technical essence of the present invention is a generator set comprising alternating current generators with an output rectifier operating in parallel and voltage regulators, where load balancing is performed by opening the output transistor of the regulator tuned to lower voltage, for which part of the input divider C is bridged. This solution requires the manufacture of special regulators having two additional leads, which leads to a unification of the regulators. In addition, the pins of the middle points of the voltage dividers of the regulators reduce the reliability due to the increased accident rate. A short circuit of these leads leads to an immediate outage of the controller. It should be said that the positive feedback input-output feedback is used as the alignment element, which violates the main feedback functions, and hence the deterioration of the switching fronts of the output transistors and the output characteristics of the system. The purpose of the invention is to improve the quality of the output characteristics of the installation and to provide use for systems with various types of voltage regulators. This goal is achieved by the fact that the generator set, containing alternators with output rectifiers operating in parallel, and voltage regulators, is equipped with a uniform load distribution device, made in the form of sets of parallel-connected resistance and switching actuator, connected between plus power rectifiers and input circuits of the voltage regulators, while the driver circuits of the actuating elements are connected between the terminals of the output circuits of the regulators is one proxy to the generator field windings. In addition, I specify the 1st element of the device in the form of an electromagnetic relay or divi 6 voltage bodies, and the executive element in the form of contacts or a transistor. Figure 1 and 2 presents the proposed installation scheme. The circuit contains generators 1 and 2, respectively, with complete controllers 3 and a device 5 for uniform load distribution, windings 6 and 7 of the relay used as driver elements / pins 8 and 9 of the relay used as executive elements, resistors 10 and 11 (Fig. 1) adjustment setting / Device 5 is connected by terminals 12 and 13 to the poles of power rectifiers of generators 1 and 2, terminals I and 15 to the output circuits of regulators 3 and, and terminals 16 and 17 to the negative terminals of output circuits of regulators 3 and In Fig. 2, resistors 18 and 19 are used as the driving elements, and transistors 20 and 21 are used as actuating elements. The device operates as follows: Since the level of the regulator is lower than the level of the regulator 3, the output transistor of the regulator is closed (generator set 1 outputs a voltage above the regulator setting level). Therefore, the potential of the negative terminal of the output circuit of the regulator 3 is much higher than the similar terminal of the regulator k and the current flows from the regulator 3 to the regulator 4 from the terminal 16 along the driving circuit of the device 5, as a result of which the actuator switches, contacts 8 open (Fig. 1) or transistor 20 is locked (FIG. 2), and resistance 11 is turned on in the input circuit of the regulator, increasing the level of the regulator, and the regulator output transistor is opened by applying current to the excitation winding of the generator 2. At this time, the current from the pole yl oscillator 1 passes through the actuating element directly to the input of the regulator 3, the contacts 9 closed 1 1) or transistor 21 (Figure 2) is opened. If, on the contrary, the setting of regulator 3 is lower than that of the regulator, then the potential of the negative terminal, the output circuit of the regulator is higher than that of the regulator 3 and the current flows

on the driver circuit 7 of the device 5, causing the inclusion of the resistance 10 in the input circuit of the regulator 3, raising the level of the latter, while the transistor 20 is open (figure 2), contact 8 is closed (figure 1); the transistor 21 is closed (FIG. 2) and the contacts 9 are open (phi1; .1).

 the adjustment of the regulators is the same, the potentials of the negative terminals of the output circuits of the regulator are the same and both regulators work without correction resistances 10 and 11.

The diodes included in the master circuit with the winding of the electromagnetic relay serve to avoid false triggering.

Thus, in the work are involved: both generators, regardless of the level. n controller settings.

Without a device, there is only one generator set that has a higher level of tuning.

The proposed automatic adjustment of the setting allows to evenly distribute the load between the parallel generators while maintaining quality output characteristics: according to the control errors and the frequency of the switch; 1 ;; 1 and the transistor, since the internal connections of the regulating devices are not disturbed. Moreover, for the use of generator sets for single and parallel operation, conventional serial products can be used, which do not require reworking the structure for parallel operation, which gives a unification of the structures, and do not depend on the type of regulating devices (vibratory, noncontact-discrete, integral, etc.). e.), which makes the system universal.

The technical and economic effect is due to the sufficiently high quality of the alignment of the currents of both generators and the quality of the output characteristics with a simple and reliable scheme and is one of the variants of performance

devices that provide uniform load distribution in parallel operation of generators.

claims 1. A generator set comprising alternators operating in parallel, power rectifiers at the output of each of them, and voltage regulators, so that, in order to improve the quality of the output characteristics, to ensure the use of objects with different types of voltage regulators, the installation is equipped with a device for uniform load distribution, consisting of sets of parallel-connected resistances and switching actuator, which are connected s between plus power rectifiers and output chains voltage regulators, with the drive circuit of the Executive elements are connected between the output circuits iklemmami regulators connected to the generator excitation coils.

. 2. Installation according to claim 1, which is designed in such a way that the driver is designed as a winding of an electromagnetic relay, in the circuit of which a diode is connected to prevent false alarms, and a switching element as contacts of this relay.

3. Installation according to claim 1, characterized in that the driver element is made in the form of a voltage divider, and the switching element in the sensor wall.

Sources of information taken into account in the examination

1. US Patent No. 2859357, cl. 307-57. 1958.

2. US patent If 2859358, cl, 307-57, 1958.

3. Authors certificate of the USSR N 603052, cl. H 02 J, 19f.

i. USSR Author's Certificate No. 276221, cl. H 02 J 1/12, 1968.

1

Claims (3)

5 claims 1. Generator set containing alternators operating in parallel, power rectifiers at the output of each of them, ¹⁰ and voltage regulators, about t and. which, in order to improve the quality of the output characteristics and ensure the use of ¹⁵ voltage tori for objects with different types of regulators, the installation is equipped with a load balancing device consisting of sets of parallel-connected resistances and a switching actuating element, which are connected between the plus of the power rectifiers and output circuits of voltage regulators, while the driving circuits of executive elements are connected between ^{and the} terminals of the output circuits of regulators, according to generators connected to the field windings. . 2. Installation according to π. 1, characterized in that the GO-driving element is made in the form of an electromagnetic relay coil, the circuit of which includes a diode to eliminate false alarms, and the switching element in the form of contacts of this relay. uh $ 3. Install pop. ^ characterized in that the driving element is made in the form of a voltage divider, and the switching element in the form of a transistor.