RU168545U1 - STATIC SIMULATOR OF THE SYNCHRONOUS MOTOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering and can be used to excite synchronous motors, as well as in thyristor DC drives. The technical result of the claimed device is the reduction of industrial radio interference generated by a static (thyristor) pathogen in the mains supply. The static exciter of a synchronous motor contains a two-winding three-phase transformer, a three-phase thyristor rectifier, an overvoltage limiting unit connected to the output of a three-phase thyristor rectifier and a control system block of a three-phase thyristor rectifier with control inputs and outputs, while the primary winding of a two-winding three-phase transformer is connected схеме to terminals A B, C, N and is connected by terminals A, B, C to the circuits of the same name of the supply network, and its secondary winding - to the inputs of the supply Three phase thyristor rectifier. Four capacitors are introduced, connected by the first terminals to the corresponding terminals of the two-winding three-phase transformer A, B, C and Ν, and by the second terminals to the ground circuit of the two-winding three-phase transformer.

Description

The utility model relates to the field of electrical engineering and can be used to excite 6/10 kV medium voltage synchronous motors, which are widely used.

Static (thyristor) exciters of a synchronous motor are known (SU 282487 A1, published: 01.01.1970; RU 2095935 C1, published 10.11.1997; RU 2375812 C2, published 10.12.2009), each of which contains a two-winding three-phase transformer, a thyristor rectifier and a system rectifier control. In this case, the primary winding of the transformer is connected according to the circuit Υ and the leads are connected to the circuits of a three-phase supply network of low voltage ~ 380 V, and the secondary to the power inputs of the thyristor rectifier. The rectifier outputs are connected to the excitation winding of the synchronous motor. Using the control system, the output voltage of the exciter and, accordingly, the current in the excitation winding of the motor are regulated.

A disadvantage of the known analogues is the lack of technical means of suppressing industrial radio interference (hereinafter, the IRP) in the low-voltage supply network of ~ 380 V.

The closest analogue adopted for the prototype is the static (thyristor) exciter of the synchronous motor series VTE (P), TE-8, etc., made according to a unified scheme (electronic resource. /, http://www.complectprom.ru/cat/preobr6.pdf. see figures 1, 2). The prototype contains a three-phase two-winding transformer, a three-phase thyristor rectifier, an overvoltage limiting unit connected to the output of the rectifier and a rectifier control system unit with control inputs and outputs, while the primary winding of the three-phase transformer is connected according to the circuit Υ and the outputs are connected to the mains, and the secondary to the supply network rectifier power inputs, the outputs of which are connected to the excitation winding of the synchronous motor. The prototype provides:

optimal start of the synchronous motor as a function of the slip (frequency) and phase of the rotor current, namely, in the field winding;

stabilization of a given field current;

automatic regulation of the excitation current as a function of the voltage and / or current of the stator winding of the synchronous motor;

high-speed boosting the excitation current during voltage drops on the stator winding;

"Quenching" of the rotor field;

control of insulation resistance of the field winding;

comply with the requirements of GOST 24688-81, "Static semiconductor pathogens for synchronous motors."

The disadvantage of the prototype is the lack of technical means of suppressing IRP. It is recommended to eliminate this drawback by known technical means by using a line filter, for example, the “Kvazar Φ100” type design, designed to prevent the distribution of IRPs through the supply network from industrial equipment (electronic resource http://www.poligonspb.ru/catalog/setevye-filtry/magistralnye /).

The network filters include capacitors and chokes, the latter determine the main mass and size characteristics of the filter and its high cost. In general, the inclusion of a typical line filter in the composition of the static pathogen increases its size and cost by 25%.

The technical result of the claimed device is the reduction of industrial radio interference generated by the static (thyristor) exciter to the supply network to levels not exceeding the requirements of GOST 30804.6.4-2013 (Electromagnetic interference from technical means used in industrial zones. Norms and test methods, table. 1)

The technical result is achieved in that a static exciter of a synchronous motor containing a two-winding three-phase transformer, a three-phase thyristor rectifier, an overvoltage limiting unit connected to the output of a three-phase thyristor rectifier and a control system block of a three-phase thyristor rectifier with control inputs and outputs, while the primary winding of a two-winding three-phase transformer connected according to the circuit Υ with the terminals A, B, C, N and connected to the terminals A, B, C to the power supply circuits of the same name rail network, and its secondary winding - a three-phase power to the input thyristor rectifier, four capacitors introduced, first terminals connected to respective terminals of three-phase two-winding transformer is A, B, C and Ν, and the second terminal - to the ground circuit of three-phase two-winding transformer circuit.

The essence of the proposed technical proposal lies in the fact that due to the original connection of the capacitors, a three-phase U-shaped LC filter is implemented that blocks the emission of IRP into the supply network. In this case, the function of the inductive element L is performed by the scattering inductance of the primary winding in each phase of the transformer.

The figure 3 presents a schematic diagram of the proposed device, where the following notation:

1 - two-winding three-phase transformer, with a primary winding connected according to the scheme Υ with the terminals A, B, C and Ν;

2 - three-phase thyristor rectifier, made according to the bridge or zero circuit;

3 - block overvoltage limiting on the field winding and rectifier thyristors, made on the "brake" resistor R _T and thyristors V1 and V2;

4 - control system block with inputs and outputs of control;

5, 6, 7, 8 - capacitors;

9 - synchronous medium voltage motor;

I _V - current at the output of the pathogen, measured by current sensors DT1..DT3;

U _In - voltage at the output of the rectifier;

U _R is the voltage across the resistor R _T ;

I _CT , U _CT - current and voltage of the stator winding of the synchronous motor;

U _C is the supply voltage for synchronizing the control pulses of the thyristor rectifier;

U ^З _B - external control task of the exciter current.

The static exciter of a synchronous motor contains a two-winding three-phase transformer 1, a three-phase thyristor rectifier 2, an overvoltage limiting unit 3 connected to the output of a three-phase thyristor rectifier 2 and a rectifier control system unit with inputs and outputs of control 4. The primary winding of a two-winding three-phase transformer 1 is connected по to the terminals A, B, C, N and is connected by terminals A, B, C to the supply network of the same name ~ 380 V. Its secondary winding is connected to the inputs a, b, and three-phase power supply transistor rectifier 2. Four capacitors 5, 6, 7, 8 are introduced into the device and connected by the first leads to the terminals of the two-winding three-phase transformer 1 A, B, C and Ν, and the second leads to the ground circuit of the two-winding three-phase transformer 1.

The operation of the device is as follows.

The inventive static exciter of a synchronous motor is made according to the unified prototype scheme. The introduction of 5,6,7,8 capacitors in its composition, in order to suppress the IRP in the frequency range (0.15-30) MHz, provides standard, the above control algorithms in the function of the controlled parameters of the pathogen I _B , U _B , U _R , synchronous motor I _CT , U _CT and mains voltage U _C. The regulation or stabilization of the excitation current is carried out in a well-known way, by phase regulation of the moment of supply of control pulses to the thyristors with a supply network frequency of ~ 380 V. The operation of a three-phase thyristor rectifier is accompanied by switching processes of switching thyristors from a non-conducting state to a conducting state and, conversely, with a frequency of the supply network, which leads to distortion of the current shape in the windings (phases) of the three-phase transformer and voltage, namely, switching dips appear ~ ~ (10-20) e. hail, period of the frequency of the mains. These nonlinear distortions are the source of the IRP and are generated through a two-winding three-phase transformer 2 into a ~ 380 V supply network. The presence of capacitors 5, 6, 7, 8 connected to the terminals A, B, C of the primary winding of the three-phase transformer 1 and the ground loop cm . 5, 6, 7, as well as to the general output of the primary winding N, connected according to the circuit Υ and the ground loop see 8, it was possible to realize a small three-phase U-shaped LC filter.

In this filter, unlike the known ones, the role of the main inductive element L is played by the scattering inductance of the primary winding of the three-phase transformer, which greatly simplified its design and cost.

Tests of the inventive static pathogen for a synchronous motor of standard design SPVD-M-315-5 UHL4, TU-3416-055-20572135-2015, head. No. 5 with refinement according to the proposed technical solution and test procedure in accordance with GOST 30805.22 (GOST R51318.2) confirmed the effectiveness of suppressing the IRP to a level not exceeding the requirements of GOST 30804.6.4-2013, table. one.

Claims (1)

A static synchronous motor exciter containing a two-winding three-phase transformer, a three-phase thyristor rectifier, an overvoltage limiting unit connected to the output of a three-phase thyristor rectifier, and a control unit of a three-phase thyristor rectifier with control inputs and outputs, while the primary winding of a two-winding three-phase transformer is connected according to Y circuit conclusions A, B, C, N and connected to conclusions A, B, C to the same circuit of the mains, and its secondary winding - to the inputs power supply of a three-phase thyristor rectifier, characterized in that four capacitors are introduced, connected by the first terminals to the corresponding terminals A, B, C and N of the two-winding three-phase transformer, and by the second conclusions - to the ground circuit of the two-winding three-phase transformer.

Images