SU754458A1 - Emergency signalling device - Google Patents

Description

The invention relates to automatic means of pulse-light signaling and can be used to alert people in case of accidents in explosive environments, for example, in mines, hazardous on gas or dust.

Known devices for light signaling, which use signal lamps connected to a power source through control switches connected to a blocking generator and multivibrator. Sh

However, such devices cannot be used as emergency in the mine, since the time between separate flashes is significant and it is impossible to turn them on and off automatically. In addition, they can not be used in explosive environments.

The closest technical solution to the invention is a device for alarm, containing a source of pulse voltage, one output of which is connected to a power source, two controlled alarms are connected in parallel, their control terminals are connected through the first contact

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relay group to the second output of the pulse voltage source, which is directly and through the first switch connected in series, the first neon lamp, the second contact group of the neutral

₅ relays, polarized relay coils and current-limiting elements are connected to the power supply. The terminals of the second neon lamp are connected respectively via a second switch and a neutral relay coil connected in series, a first resistor and a contact group of a polarized relay with a power supply, one bus of which is connected through a second switch and a resistor to one of the electrodes, impulse lamps, the other electrodes of which are connected to another bus source pi ¹⁵ tani [2].

The use of polarized relays as well as neon lamps as switching elements of contacts reduces the reliability of the device and does not allow its use in a mine (in an explosive environment). In addition, in this device the frequency of ignition of the lamps is determined by the charging time of the storage capacitor for each of the lamps.

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754458

The aim of the invention is to improve the reliability and performance of the device.

This goal is achieved by introducing an amplifier, a time relay, a voltage converter, a multivibrator, four thyristors, a third capacitor, current-limiting elements connected to the input of the amplifier and the cathodes of the first and second thyristors, the output of the amplifier is connected to the control electrode of the first one, its anode is central with a time relay, a voltage converter and through a third capacitor with an anode of the second thyristor, a time relay connected to the control electrode of the second thyristor and p eobrazovatelem voltage which is connected to the anode of the second thyristor and the multivibrator. The source of pulse voltage through the second capacitor, the third and fourth thyristors is connected to the common point of the detector and the first capacitor. The output of the multivibrator is connected to the control electrodes of the third and fourth thyristors.

The drawing shows a diagram of the proposed device.

The device contains a signal source 1, current-limiting elements 2-5, amplifier 6, thyristors 7-10, time relay 11, capacitors 12, 13, 14, controlled signaling devices 15, 16, pulse voltage source 17, DC voltage source 18, voltage converter 19 and multivibrator 20.

Voltage converter 19. can be performed, for example, on a transformer with a rectifier, a DC voltage source 18 is on batteries, current-limiting elements 2-5 are on resistors and diodes.

The device works as follows.

The control pulses from the multivibrator 20 are fed alternately to the thyristors 9, 10. To automatically turn off the circuit, there is a circuit from the thyristor 7 connected to the voltage converter 19, which is connected to the capacitor 17.

To ensure the intrinsic safety of the charging circuits are the elements 2, 3, 4, 5. The control signal to the thyristor 8 is fed through the amplifier 6.

The device is based on the principle of the instantaneous discharge of a capacitor 14 through a signaling device 16, which can be performed on the lamp. When current flows through this lamp, a capacitor 13 is charged. The ignition pulses of the detectors 15 and 16 are controlled by the multivibrator 20. Igniting pulses are fed through the thyristors 9, 10 from the source 17 alternately, then one, then another warning lamp 15 or 16. Since the capacitor 13 is charged at the time when the detector 15 is lit, it is possible to ignite the detector 16

immediately after extinction of the alarm device 15. The required frequency of the ignition pulses is set by the multivibrator 20. The charge of the capacitor 14 occurs during two pauses between the glow of the warning lamps 15 and 16 and the time of burning of the warning device 16.

The device is turned on by a control signal (positive pulse) coming from a signal source, either from an accident detection sensor, or from a dispatcher through an amplifier to the control electrode of the thyristor 8. The thyristor 8 opens and the power is supplied to time relay 11, voltage converter 19 and multivibrator 20. A capacitor is charged. 12. An electronic time relay is set for a time, for example, 30-40 sec, during which light signals must be given. After this time, a positive potential is applied to the control electrode of the thyristor 7, the thyristor 7 opens and the capacitor 12 is discharged through the thyristors 8 and 7. Since the voltage on the capacitor 12 is higher than the voltage of source 18 and is applied to the thyristor 7, it closes and the circuit returns in the original state.

The control signal for switching on the emergency light signaling device is supplied via intrinsically safe circuits from the control room through resistors 3, 5.

To ensure the intrinsic safety of the battery charge circuits, for example, current-limiting elements 2, 4 with a five-fold current reserve can be included.

This embodiment of the emergency signaling device meets the requirements of emergency conditions in the mine.

The ability to automatically turn off the device after a predetermined time can significantly increase the service life of the device without additional charge of batteries and due to the fact that the number of switching on of flash lamps is limited.

Claims (1)

Claim An alarm device containing a signal source connected to current-limiting elements, controlled alarms, one end of controlled alarms connected directly to each other, control outlets of controlled alarms connected to a source of pulsed voltage, and a second capacitor connected in parallel to one of the alarms that, in order to improve the reliability and speed of the device, an amplifier, a time relay, and l voltage, five 754458 6 multivibrator, four thyristors, third capacitor, current-limiting * elements connected to the input of the amplifier and cathodes of the first and second thyristors, the output of the amplifier is connected to the control electrode of the first one, its anode is connected 5 to a time relay, a voltage converter and a third capacitor to the anode of the second thyristor The time relay is connected to the control electrode of the second thyristor and the voltage converter, which is connected to the anode of the second thyristor S and the multivibrator, a source of pulsed voltage black of the second capacitor, the third and fourth thyristors connected to the common signaling point, and the first capacitor, the output of the multivibrator is connected to the control electrodes of the third and fourth thyristors.