SU1681024A1 - Method for ensuring spark safety of mine power supplies - Google Patents

Abstract

The invention relates to the mining industry and is intended to ensure the safe transfer of electrical energy from power sources to the load in mines that are dangerous for gas and dust. The aim of the invention is to increase the reliability of spark protection during a short circuit and overload. For this, an additional intrinsically safe source and an additional resistance are connected in parallel with the power supply. Connect the load. Control the current in the output circuit and the voltage on the additional resistance connected in series with the additional intrinsically safe source. The output current is compared with a predetermined value, and the voltage at the additional resistance with a threshold value. When the current exceeds a predetermined or voltage threshold value, a signal is emitted that is applied to the device disconnecting the power source. 1 il. A parallel connection of an additional intrinsically safe source and an additional resistance is connected in parallel with the source. Connect the load. They control the current in the output circuit, as well as the voltage across the additional resistance connected in series with the additional intrinsically safe source. The output current is compared with a predetermined value, and the voltage at the additional resistance is compared with the threshold value С С 00 O Oh

Description

a value at which intrinsic safety is impaired. If the output current exceeds the set value or the voltage on the additional resistance exceeds the threshold value, the signal is emitted that affects the device that turns off the power supply.

The drawing shows a schematic diagram of a device implementing this method.

The power source contains an energy source 1, resistance 2 and inductance 3. In parallel with the power source, a thyristor 4 is connected, the control junction of which is connected to the measuring resistor 5 via a threshold device (Zener diode) 6 and a separation diode 7. In parallel with the output circuit of the source, a capacitor 8 is additionally connected, which is an additional intrinsically safe source of energy, and in series with it a limiting resistor 9. The common point of the capacitor 8 and resistor 9 is connected to the input of the device 10, the output of which is connected through the separation diode 11 to the control transition of the thyristor 4. The capacitance of the capacitor 8 is chosen so that its energy released in the discharge during a short circuit is not sufficient to ignite the gas mixture.

In normal operation, when the capacitor 8 is charged before the source voltage, the voltage across the resistor 9 is zero and no signal is received at the input of the comparison device 10.

When the circuit is short-circuited, the full voltage of the capacitor 8 is released at the first moment on the resistor 9, which is equal to the output voltage of source 1, and this voltage is applied to the input of the comparator device 10. If the inductance 3 has a significant value (for example, hundreds of mH) then at the initial moment the voltage across the resistor 5 remains almost unchanged and the signal from this resistance does not reach the input of the thyristor 4. Thus, in this method, a signal is formed at the very beginning of a short circuit, and the magnitude of this signal is maximum at the first moment and does not depend on the operation of the thyristor 4, which ensures its reliable switching on.

When an additional load is connected, the voltage at the output of source 1

is changed to Li due to the redistribution of the voltage between the source resistances. In this case, the smaller the equivalent load resistance, the greater the D U, during a short circuit, A U is equal to the voltage across the capacitor 8. With a decrease in the load resistance, the load current increases accordingly. Intrinsically safe limit value

current corresponds to some value of AU. AU with an arbitrary change in the load resistance is allocated at the resistor 9. This value is compared in the comparison device 10 with the maximum allowable D UH and in the case of A U D 1) n, a signal is generated at the output of the device 10 that turns on the thyristor 4.

Thus, the source is disconnected only when an additional

load, causing an increase in current to a spark-dangerous value, as well as during a short circuit.

The use of the method makes it possible to increase the reliability of the spark source protection when the source is overloaded.

and short circuit by increasing

the signal required to turn off and

reducing the time of its formation.

Due to this, the time of existence of an electric discharge, which can ignite an explosive atmosphere, is reduced.

Claims (1)

Claims The method of ensuring the intrinsic safety of mine power sources, which consists in forming a reference signal, compares it with a signal proportional to the current in the circuit, and when exceeded above the reference signal generate a power supply shutdown signal, characterized in that, in order to increase the reliability of spark protection during a short circuit and overload, they form a signal proportional to the rate of change of the short circuit current, and compare it with a signal proportional to the voltage of the power source and when the signal is exceeded proportional to the rate of change of the short circuit current, over the signal proportional to the voltage of the power source, form an additional signal to turn off the power source. // wto :eight 5 -CZZb