SU1665457A1 - Method for self-starting of motor - Google Patents

Abstract

The invention relates to the power industry, namely to the power supply of the responsible consumers, and can be used for the self-start of the responsible synchronous and asynchronous motors with short interruptions of the power supply at the main source. The goal is to increase the reliability of self-starting and uninterrupted operation of the technological process. In the event of a loss of power from the main source, the integral value of the difference between the actual power consumed and the power needed to continue stable operation is measured. If the integral value exceeds the difference, the installation switches off the main source switch. Control the voltage on the main and backup sources and their synchrony. When voltage is applied to the main source and the equality of voltages and synchronism is reached, it simultaneously switches on the main and backup sources, thereby reducing external resistance, and therefore increases the voltage on the self-starting motors, which improves the self-starting conditions. When reducing the self-starting current below the set point, turn off the backup source switch. 1 il.

Description

The invention relates to the power industry, namely to the power supply of the responsible consumers, and can be used to self-start the responsible synchronous and asynchronous electric motors during short-term interruptions of the power supply at the main source.

The aim of the invention is to increase the reliability of self-starting electric motors and uninterrupted operation of the technological process.

Due to the simultaneous switching on of the switches of the main and reserve inaccurators, the current of self-starting of electric motors, passing through the resistance of each source, is reduced approximately by 2 times.

As a result, the voltage drop across the resistance of the power supply decreases, and the residual voltage of the consumer increases accordingly. As a result, the input moment of the electric motor increases (proportional to the square of the residual voltage at its terminals), which increases the reliability of the self-starting and stability of a complex technological process.

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By measuring the parameters of the self-starting process (self-starting current), it is possible to determine its termination and turn off the backup source switch, which brings the circuit to its initial state.

The drawing shows a block diagram of a device for implementing the proposed method. The device contains switches 1 and 2 of the main and backup sources, 3 and 4, respectively, a switch and an electric motor participating in the self-start, sensors 5 and 6 of the current and the voltage of the main source, block 7, determining the integral value of the consumed power and matching it with the minimum integral the value of the power required to maintain stable operation of synchronous motors, the electromagnet 8 of switching off the main source switch, the sensors 9, 10 of the voltage of the main and backup power sources Elements 11 and 12, synchronism meter 13, logic element AND 14, electromagnet 15 for switching the main source switch, electromagnet 16 for switching the backup source switch, element 17 for short-term memory, current sensor 18 for self-starting, threshold element 19, logic element I 20, the electromagnet 21 of the reserve power supply disconnecting switch.

The device works as follows.

In case of a short-term disappearance or deep decrease of voltage on the main power source, unit 7, measuring the integral value of the power necessary to maintain the stability of the synchronous motor, produces, when the measured value exceeds the set value, the pulse on the main source opening switch 1. At the same time, a pulse is applied to the logical element AND 14,

When the voltage is restored at the main source to a value corresponding to a given installation, for example, as a result of successful reclosure or an AVR at an upstream power supply level, pulse 11 is sent to threshold element 11 if the voltage at the backup source is also not lower than the specified, then from the threshold element 12 to the logic element 14 also receives a pulse. At the same time, the meter 13 determines the synchronism of the main and backup sources. If there are permitting signals on all four inputs of the logic element 14, signals are output from its output simultaneously to electromagnets 14 for switching on the main one and electromagnet 15 for switching on a backup source. This starts the self-start of the electric motor 4. Due to the simultaneous activation of the switches of the main and backup sources, the voltage on the tires during self-start increases and the self-start is successful.

In the process of self-starting current sensor 18

the self-start measures the current and when it falls below the set value, the threshold element 19 sends a signal to the first input of the AND 20 logic element, to the second input of which a signal has already been given

after turning on the backup source switch and this signal is stored by the memory element 17.

At the output of the logic element AND 20, a signal appears to trigger the tripping electromagnet 21 of the section switch 2. As a result, the AVR device returns to its initial state after the self-start is completed.

Claims (1)

Invention Formula A self-starting method for an electric motor, in which the integral value of the difference between the actual power consumed and the power required for Continuing stable operation of the synchronous load, disconnecting the main source switch when the measured integral value exceeds the difference of the specified value corresponding to the acceptable level of stable synchronous load, measure the magnitude and synchronism of the main and backup sources when the voltage of the main source reaches the specified value the backup source and its synchronization with the backup source voltage include the backup source switch characterized by that, in order to increase the reliability of the self-starting and uninterrupted operation of the technological process, simultaneously with the switch-on of the backup source, turn on the main source switch, control the self-start current and, if it decreases below the set point, turn off the backup source switch.