RU2612394C1 - Automatic switching backup source - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device comprises two AC power sources connected to the AC buses, an active filter, and three responsible consumers connected to the AC buses. Two AC power sources are connected to the AC buses through the switching devices formed on the basis of two power electronic switches based on the counter-enabled thyristor pair without the damping chain in one of the thyristors. The device is equipped with the units of the electrical energy quality control indicators connected to the AC power sources, the active filter and the responsible consumers buses, the control unit, to the inputs of which the units of the electrical energy quality control indicators are connected, and its outputs are connected to the switching devices formed on the basis of two power electronic switches based on the counter-enabled thyristor pair without the damping chain in one of the thyristors, and the active filter with the connected thereto unit setting the acceptable electrical energy quality indicators and the communication lines with the automated technological process control system controlled by the separate unit.

EFFECT: eliminating power breaks at switching and improving the electrical energy quality.

2 dwg

Description

The invention relates to the field of electrical engineering, in particular to emergency control devices, and can be used to power alternating current consumers of a special group of the first category of reliability of power supply, not allowing a power interruption.

Known devices for automatically turning on the reserve (ATS), containing the switches of the working and backup power sources, which operate when the voltage disappears on the consumer's buses and with a given delay time, turn off the switch of the working source, and then turn on the switch of the backup source [1], and this causes a power outage corresponding to the shutdown time delay of the working source switch. A time delay is necessary to prevent tripping of short-circuits that are not disabled, as well as to coordinate actions with other emergency control devices.

The disadvantages of such devices with relatively high performance is a short-term power failure on the consumer buses during emergency network conditions when switching the faulty input to the backup one.

It is also known a device containing a decoder, an actuator and two identical power quality control units, each of which contains two voltage control channels, consisting of a voltage sensor, a threshold element, an extinction delay element and an appearance delay element, and a frequency control channel, consisting of from series-connected frequency control circuits, an extinction delay element and an appearance delay element; the outputs of the appearance delay elements are outputs of power quality control units. At the same time, a voltage dip control channel is additionally introduced into the structure of each electric power quality control unit, consisting of series-connected voltage dip control circuits, an element of disappearance delay and an appearance delay element, the output of which is the fourth output of the electric power quality control unit. An additionally introduced voltage dip control circuit responding to voltage dips of more than 50% of the nominal value, and the fourth element of the extinction delay, the duration of the formed delay of which depends on the capacitance of the capacitors in the power supply filters of the responsible consumer and its current consumption, in conjunction with an eight-input decoder allow during emergency conditions in the electric network, uninterrupted supply of electricity to responsible consumers [2].

The disadvantage of this device is the inability to improve the quality indicators of electric energy, such as voltage asymmetry, non-sinusoidality of the shape of the voltage curve, based on the assessment of the total actual contribution of electric energy sources and consumers to the deterioration of the quality of electric energy.

Closest to the proposed device is a device containing two identical circuits, each of which has an AC source connected to the input of the voltage sensor and to the input power terminals of a mechanical key with an electric drive, while the outputs of the voltage sensors are connected to the corresponding inputs of the control unit, one of the outputs of which are connected to the electric drive, a current sensor and a load equipped with an active filter, the output of which is connected to the output power terminals connected together by a mechanical keys, and its input is connected to the third output of the control unit, a voltage sensor connected to the power input of the current sensor and the connection point of the output power terminals of the mechanical keys, and the output of the voltage sensor is connected to the third input of the control unit, while the power output of the current sensor is the output device and is connected to the load, and its output is connected to the fourth input of the control unit [3].

The disadvantages of this device, in addition to the low speed due to the presence of mechanical keys in the device, are also the inability to switch from one AC source to another based on the assessment of the total contribution of AC sources and consumers to the deterioration of such indicators of electric energy quality as voltage unbalance, nonsinusoidal shape of the voltage curve, voltage dips and overvoltages.

The aim of the invention is to provide a device that eliminates power interruptions when switching power from one AC source to another, as well as improving the quality of electric energy in the network.

This goal is achieved by the fact that in the known device thyristor switching devices are used, made on the basis of two power electronic keys on the basis of an on-board thyristor pair without a damping chain in one of the thyristors, the response time of which does not exceed 10 μs, the blocks of electric energy quality indicators are applied to take the parameters of electric energy and process them in the control unit in order to determine the actual contributions of consumers and AC sources to the deterioration the use of indicators of the quality of electric energy according to the existing method for identifying the actual contribution of the subjects of electric networks to the distortion of the quality of electric energy, determining the total actual contribution of the load with each source separately, comparing them with each other and with an acceptable contribution to the distortion of the quality of electric energy and switching the load to the source , the total actual contribution with which will be the least, according to the invention, communication lines are additionally introduced into the device automated process control system, reference units valid indicators of the quality of electrical power and control lines with an automated process control system.

The invention is illustrated by drawings (Fig. 1, 2).

The device contains:

1 - AC source;

2 - an alternating current source;

3 - a responsible consumer (communication and control equipment);

4 - a responsible consumer (lighting load);

5 - a responsible consumer (motor load);

6 - block control indicators of the quality of electric energy;

7 - block control indicators of the quality of electric energy;

8 - block control indicators of the quality of electric energy;

9 - control unit for quality indicators of electric energy;

10 - active filter;

11 - thyristor switching device;

12 - thyristor switching device;

13 - AC bus;

14 - AC bus of responsible consumers;

15 - control unit;

16 - block setting acceptable indicators of the quality of electric energy;

17 - control unit of communication lines with an automated process control system;

18 - communication lines with an automated process control system.

The device operates as follows.

Power supply for responsible consumers 3, 4 and 5 is carried out from an alternating current source 1 through a thyristor switching device 11, alternating current buses 13 and buses of responsible consumers 14.

In case of power failure from the AC source 1 for some reason, the control unit 15 sends a signal to turn off the thyristor switching device 11 and sends a signal to turn on the thyristor switching device 12. To align the parameters of electric energy from AC source 1 to the parameters from AC source 2, and also to compensate for the interruption of power supply of responsible consumers for the time the thyristor switching device 11 is turned off and the thyristor switching device is turned on About the device 12, the control unit 15 provides a signal to the active filter 10, the output of which is connected to the AC bus 13, and its input is connected to the control unit 15, which allows switching the power supply of critical consumers 3, 4, and 5 between AC sources 1 and 2 without breaking the supply voltage curve, while its parameters are also monitored by the control unit for quality indicators of electric energy 9 and recorded in the memory of the control unit 15. When the parameters of the AC source 2 are compared with the parameters on the buses of the responsible consumers, the control unit 15 turns off the active filter 10, the power of the responsible consumers is supplied from the AC source 2 through the thyristor switching device 12, the AC bus 13 and the bus of the responsible consumer 14.

When resuming power on the AC source 1, the circuit returns to its initial state, the control unit 15 gives signals to turn off the thyristor switching device 12, turn on the thyristor switching device 11, and also turn on the active filter 10 to compensate for the interruption in power supply during switching and alignment of parameters on the buses responsible consumers from AC source 2 to the parameters of AC source 1.

The parameters from the control unit of indicators of the quality of electric energy 6 in the control unit 15 are compared with valid. The parameters from the control unit for the indicators of quality of electric energy 7 in the control unit 15 are compared with the acceptable ones, and if they match, the control unit 2 compares it with the unit for monitoring the indicators of quality of electric energy 6. If both signals have the same parameters, then at least one deviation From the parameters from the control unit of indicators of the quality of electric energy 6 from the permissible device, the device switches the power supply of responsible consumers 3, 4, and 5 from the AC source 1 to the AC source 2.

When parameters are returned from the control unit of the indicators of quality of electric energy 6 to acceptable, if at the same time there is a deviation from at least one of the parameters from the control unit of indicators of electric energy 7 from the acceptable, the device returns power to responsible consumers 3, 4 and 5 from the AC source 2 to AC power 1.

Data from control units for indicators of the quality of electric energy 6, 7 and 8 are continuously collected and transmitted through the communication lines to the inputs of the control unit 15 of the device, in which, using the unit for setting allowable indicators of quality of electric energy 16, parameters of indicators of quality of electric energy are set that correspond to allowable , and are recorded in his memory. According to the existing method for determining the actual contribution of consumers and sources of electricity to the deterioration of the quality of electric energy in the software part of the control unit 15, the actual contribution of responsible consumers 3, 4 and 5 and AC sources 1 and 2 are calculated, after which the actual contributions from responsible consumers 3 are summed up, 4 and 5 and AC source 1, and also the actual contributions from responsible consumers 3, 4 and 5 and AC source 2 are summarized, as well as the calculation of allowable Hell, which may be included in the deterioration of the quality of electricity in the network. The control unit 15 compares the total contribution to the deterioration in the quality of electrical energy of the AC source 1 and responsible consumers 3, 4 and 5 and the AC source 2 and responsible consumers 3, 4 and 5 with an acceptable contribution.

If the total actual contribution of AC source 1 and responsible consumers 3, 4 and 5 is exceeded, the total actual contribution of AC source 2 and responsible consumers 3, 4 and 5 is compared with acceptable and, if it is less, the device transfers power to responsible consumers 3 , 4 and 5 from AC source 1 to AC source 2.

If the total actual contribution of AC source 1 and responsible consumers 3, 4 and 5 is exceeded, the total actual contribution of AC source 2 and responsible consumers 3, 4 and 5, the device transfers power to responsible consumers 3, 4 and 5 from AC source 1 to source AC 2.

Similarly, the power of responsible consumers 3, 4 and 5 is switched from AC source 1 to AC source 2 when the total actual contribution of AC source 2 and responsible consumers 3, 4 and 5 is exceeded if the total actual contribution of AC 1 and responsible consumers 3, 4 and 5 does not exceed the allowable, or if the total actual contribution of the AC source 2 and responsible consumers 3, 4 and 5 exceeds the total actual contribution of the source AC 1 and critical loads 3, 4 and 5.

Through communication lines with an automated process control system 18, the state of which is monitored by a control unit for communication lines with an automated process control system 17, data on the state of the device and the load power are transmitted to an automated process control system.

Thus, the use of switching devices made on the basis of two power electronic switches based on a counter-connected thyristor pair without a damping chain in one of the thyristors allows eliminating power interruptions for responsible consumers, the use of control units for electric energy quality indicators and selection of the total actual contribution of variable sources and responsible consumers can improve the quality of electric energy on the tires of responsible consumers, and the introduction of the construction of the unit for setting acceptable indicators of the quality of electric energy and communication lines with an automated process control system allows you to remotely change the parameters of the device and monitor its operation.

Applicants do not know the way to solve the problem with a given set of essential features, which indicates the "inventive step" of the technical solution.

Based on the MATLAB SimPowerSystems software product, the authors conducted a simulation of the processes that occur in this device during its operation. The developed model shows (Fig. 2) that when using this device in the power supply systems of responsible consumers, switching is performed without interruption of power supply, and also by selecting a priority AC source when supplying responsible consumers according to the total actual contribution to the deterioration of the quality of electric energy improves the quality of electrical energy.

The device can be performed on a modern elemental base of industrial manufacturing.

The data and information confirm the possibility of industrial implementation of the invention.

Information sources

1. Andreev V.A. Relay protection and automation of power supply systems. - M .: Higher. school, 1991, fig. 10.12, p. 285.

2. RU No. 2025024, 1994

3. RU No. 2304337, 2007

Claims (1)

A device for automatically switching on a backup source, containing two alternating current sources connected to alternating current buses, an active filter, three responsible consumers, a control unit, characterized in that it additionally includes units for monitoring the quality indicators of electric energy, a unit for setting acceptable indicators for the quality of electric energy, communication lines with an automated process control system, control unit for communication lines and switching devices, made on the basis of two power electronic switches on the basis of the counter included thyristor pair without damping chain in one of the thyristors; moreover, the units for monitoring the quality indicators of electric energy connected to AC sources, the bus of responsible consumers and the active filter, the unit for setting acceptable indicators for the quality of electric energy and the unit for monitoring communication lines, to which the communication lines with an automated control system are connected, are connected to the inputs of the control unit, the conclusions of which are connected to switching devices made on the basis of two power electronic keys based on the on-board thyristor pair without dump iruyuschey chain in one of the thyristors, and the active filter.

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