SU842888A1 - Device for multipoint indication - Google Patents

Description

. (54) DEVICE FOR MULTIPOINT SIGNALING

Claims (2)

.-; :; ;, /: -; ./-;; The invention relates to alarm systems, in particular, to systems that respond to the disconnection of the parameters of various objects from the environmental conditions, and can be used for alarm and warning of heat and power, chemical and other objects. Multipoint signaling devices are known in which, to facilitate the search for a newly-generated light signal, flashing of signal lamps and containing thyristor keys and separate impulse generators are used. ow sp. / .. When using a power key with overvoltage keys, for power supply, the pulse generators require separate sources, which complicates the devices and reduces the reliability of their operation. Also known are devices for many point alarms in which the thyristor key is controlled by a dynistr, the cathode of which is connected to the control of the thyristor electrode and the anode to the storage capacitor of the back-up chain. To simplify the setup of the device, the charge circuit and the capacitor circuit are separated by diodes. In such devices, the lamp luminescence time is determined by the capacitor discharge time, while the capacitor discharge current keeps the dynistor in the on state. In order to obtain light shushuls acceptable for technological signaling, the capacitance of the capacitor must be equal to hundreds of microfarads, therefore, the use of electrolytic capacitors is necessary, which reduces the reliability of the device. In addition, the thyristors and dynstors have large variations in the values of the current for disconnection, which causes a variation in the time delays, or it requires the selection of resistors of charge and discharge circuits 2}. The purpose of the invention is to increase the reliability of the device. The goal is achieved by introducing a second thyristor and a second capacitor into the device, the anode of the second thyristor through the second resistor is connected to the positive terminal of the power source, the cathode with the control electrode of the first thyristor controlling. the electrode of the second thyristor is connected to the cathode of the dynistor, the anode of the dynistor is connected through the third resistor to the fourth and fifth resistor and the diode anode, the second terminal of the fourth resistor is connected to the anode of the first thyristor, the second terminal of the fifth resistor and the cathode to the first capacitor, the control transition the electrode is a cathode shunted with a six resistor, the second capacitor is connected in parallel to the dynistor and the third resistor. The device consists of cells 1c with signal lamps 2 connected via locking contacts to buses of steady and flashing luminescence. The key uses a powerful thyristor 3, the anode of which is connected to bus 4 of blinking luminescence, and the cathode with negative output of power supply 5 , To the control electrode of the thyristor 3 is connected a katod of the second thyristor 6, which has a lower power. The anode of the thyristor 6 through a resistor 7 is connected to the positive terminal of the power source 5. To control the thyristors 3 and 6, a dynistor 8 and a series-connected capacitor 9 and a resistor 10, Resistor 11, are used. The separation diode 12 forms a charging circuit, a capacitor 13, defining a pause between the switching on of the lamps. Resistors 10 and 14 are a bit circuit that determines the duration of the lamps. Resistor 15 protects dynistor 8 from excessive discharge current of capacitor 9 when dynistor 8 is turned on. Resistors 15 and 16 shunt the control electrode – cathode transitions of thyristors 3 and 6. The device operates as follows. When a flashing light is connected to the bus, one or several signal lamps 2 through the resistor 10 and the diode 12 start charging the 13-h capacitor through the resistor 10 and the control electrodes of the thyristors 3 and b the capacitor 9 is charged. In this case, the charge time is determined mainly by the capacitance of the capacitor 13. With the simultaneous charging of the capacitors 9 and 13, the charge current passing through the capacitor 9 is not sufficient to turn on the thyristors. As soon as the voltage on the capacitors 9 and 13 becomes sufficient to turn on the dynistor 8, it turns on and turns on the thyristors 3 and 6, while the charging lamps 2 turn on, after turning on the thyristors 3 and. 6, capacitor 9 is quickly discharged through dynistor 8, and capacitor 13 begins to slowly discharge through dynistor 8 ,, thyristor control electrodes 3 and 6, as well as through resistor 10 and anode circuit of thyristor 3. Discharge current of capacitor 13 through resistor 14 it is possible to choose such that the dynistor 8 is turned off at the end of the first half cycle or turned off when the capacitor 13 is partially discharged. When the dynistor 8 is on, the thyristor 6 is turned on, and through the resistor 7 and the thyristor 6 on. thyristor control electrode. 3, a pulsating voltage is applied, and it is turned on for each half period, part of the half period is cut off, and short pulses of amplitude up to 5-10% of the amplitude of the pulsating voltage are obtained at the anode of the thyristor 3. When the discharge current of the condenser 13 through the resistors 14, 15 and the distor 8 becomes less than the disconnect current of the dynistor 8, it is turned off. After disconnecting the dynistor 8, the thyristors 3 and-6 continue to be turned on by pulses passing through the resistor 10 and the capacitor 9, and the capacitance of the capacitor 9 is adjusted so that after turning on the thyristors 3 and 6, it will discharge to the end of each half-period through the resistor 10, the anode circuit of the thyristor 3 and the resistors 15 and 16, the capacitor 13 continues to discharge through the resistors 10 and 14 and the anode circuit of the thyristor 3, as soon as the capacitor 13 is discharged to a voltage less than the amplitude of the pulses at the anode of the thyristor 3, at the beginning of the next half period while the supply voltage of the capacitor 13 starts to charge, the current of the capacitor 9 decreases and is insufficient to turn on the thyristors 3 and 6, the thyristors 3 and 6 are turned off, the lamps 2 go out and the capacitors 9 and 13 are charged before turning on the voltage of the dynistor 8, when In this way, dynistor 8 is turned on again, and the process is repeated. Thus, signaling of lamps 2 to the minus terminal of power supply 5 is periodically connected, which ensures the flashing of signal lamps connected to the bus of the flashing luminescence, since the switching on the thyristors does not depend on the discharge current of the capacitor of the drive circuit time the capacitor capacitance can be in the range of 10–20 µF, which allows the use of more reliable capacitors. In addition, the charge and discharge parameters do not depend on the switching currents of the thyristors, and, therefore, they can be selected in advance and do not need to be selected during tuning. Therefore, the reliability of the device is higher, the output power of the device can also be almost unlimited. DETAILED DESCRIPTION OF THE INVENTION A device for multipoint signaling comprising cells with signal lamps connected together. terminals with the positive terminal of the power source, and other terminals through the closing contacts - with the equal luminous bus connected to the minus terminal of the power source and with the migrant bus, the thyristor, whose cathode is connected to the negative terminal of the power source, the anode with the flashing luminous bus, and the control electrode is connected via a resistor to the cathode, a capacitor connected by one output to the cathode of the thyristor, a dynistor, a resistor, and a diode, so that, in order to increase the reliability of the device, a second the thyristor and the second capacitor, the cathode of the second thyristor is connected to the control electrode of the first thyristor, the anode through the second resistor with the positive terminal of the power source, the control electrode connected to the cathode of the dynistor, the anode of the dynistor through the third resistor is connected to the fourth and fifth resistors and the diode; the second output of the fourth resistor is connected to the anode of the first thyristor, the output of the fifth resistor and the cathode of the diode are connected to the second output of the first capacitor, the second capacitor is connected in parallel to the dynistor and the third To its resistor, the sixth resistor is connected between the control electric current and the cathode of the second thyristor. Sources of information taken into account during the examination 1. USSR author's certificate number 458845, cl. G 08 23/00 1973.: 2. USSR author's certificate 628521, cl. G 08 B 21/00, 1977 (prototype).