RU2029375C1 - Device for checking and blasting of explosive charge - Google Patents

Abstract

FIELD: anti-fire equipment. SUBSTANCE: device has explosive charges 1-4, light-emitting diodes 5-8 for checking condition of explosive charges, resistors 9-12 disposed in circuits of light-emitting diodes, diodes 13-16, relays 17-19 for sequent blasting of explosive charges, explosive charges operation relays 20-22, explosive charges circuit forced blasting relays 23-25, delay relay 26, malfunction panel 27, reject button 28, explosive charges forced blasting button 29, capacitor 30 and resistor 31 of RC-circuit for pulsed operation of relays 23-25, check switch 33, operation switch 34, power supply 35, power unit buses 36-38. EFFECT: improved reliability of blasting. 1 dwg

Description

 The device relates to fire fighting equipment and can be used in ship automation in control systems for technical fire extinguishing equipment in power plants using inert gas fire extinguishers.

 A device for controlling and detonating a pyro cartridge, comprising a switching unit, to which a pyro cartridge (load) and an intermediate element to which a signal lamp is connected, is connected.

 The disadvantage of this device is the low functional reliability.

 The purpose of the invention is the increase in the number of blasting squibs without increasing the current blasting.

 The drawing shows an electrical diagram of the device.

 The device contains a squib (explosive device that opens the exhaust valve in the fire extinguisher) 1-4, a malfunction display made on LEDs 5-8 and resistors 9-12, decoupling diodes 13-16, relays 17-19 for sequential blasting of the squibs, relays 20-22 actuation of the squibs, relay 23-25 for the forced interruption of the pyrocartridge circuit, delay relay 26, light indicator 27, button 28 for resetting signals from relays 23-25 and resetting them to their initial state with self-resetting, button 29 for forced blasting of the squibs (operational completion of operations tion at defective squib latching), a capacitor 30, a resistor 31, a current limiting variable resistor 32, control switch 33, operation switch 34, power source 35, a first bus 36 power source 35, the second bus 37 power source 35, common bus 38.

 Some explanations. On modern ships, fire fighting premises with electrical installations is carried out with inert gas contained in special fire extinguisher cylinders. To release inert gas from a fire extinguisher in a room, it is necessary to open the valves, usually two valves to the fire extinguisher, each of which opens by detonating the igniter. In this case, the control current of the squibs must be minimal and safe, excluding the operation of the squibs, and therefore, fire extinguishers. When blasting the squibs, whose electrical resistance is a fraction of an ohm, a large current is switched, close to the short circuit current. The magnitude of this current increases with increasing number of fire extinguishers. For example, when extinguishing a fire in engine rooms, it is necessary to simultaneously use up to ten fire extinguishers, i.e. undermine twenty squibs. The total blasting current in this case of simultaneous switching on is about 500 A, which requires the installation of a significant power source.

 The proposed device provides a limitation of the total current undermining a group of squibs by the response current of one squib, slightly increasing the time of undermining the entire group of squibs.

 The device operates as follows.

 When the control switch 33 is turned on, a control current (safe, equal to 0.01-0.05 A) passes through each igniter: circuit 37 of the power supply 35, control switch 33, LED 5-8, resistors 9-12, igniter 1- 4, bus 36 of power supply 35. The health of the circuit is controlled by LEDs 5-8. These chains (of all the squibs 1-4) must be constantly energized, providing continuous monitoring of the health of the squibs.

 When undermining the group of squibs, it is necessary to turn on the switch 34 of the operation, while there is an automatic alternately turning on the chains of detonating the squibs. The first circuit: power supply bus 37, operation switch 34, current-limiting variable resistor 32, diode 13, opening contact of the forced circuit breaker relay 23, squib 1, squib 1, bus 36 of power supply 35. The coil of the relay 17 for sequential blasting of the squibs is shunted by the low-impedance resistance of the squib 1. The squib operates and breaks its thread, which leads to the break of the control circuit and the LED goes out 5. At the same time, the relay 17 of the sequential blasting of the squibs is connected according to the circuit indicated above. Relay 17 closes its similar contacts to undermine the igniter 2 and the activation circuit of the relay 20 for actuating the igniter 1 along the circuit: bus 37, operation switch 34, bus 38, relay coil 20, NO contact of relay 17, bus 36 of power supply 35. Relay 20 operates and closes its make and breaks its opening contacts.

 At the same time, the squib 2 is powered by the circuit: bus 37 of the power supply 35, the operation switch 34, the make contact of the relay 17, the diode 14, the open contact of the relay 24, the squib 4, the bus 36 of the power supply 35. The coil of the relay 18 for sequential blasting of the igniter is shunted by the low resistance of the igniter 2. The igniter 2 is activated by the low impedance of the igniter 2. The igniter 2 is triggered and breaks its thread, which leads to the break of the control circuit and the extinction of LED 6 and at the same time the relay 18 of the sequential ignition of the igniter indicated above. Further operation of the device is similar.

 Suppose that the squib 2 worked, but did not break its thread. The device stops because the winding of the relay 18 remains shunted by the low-impedance resistance of the igniter 2. LED 6 will be energized and illuminated. In this case, after a set time, longer than the operating time of the entire device, a delay relay circuit 26 is formed: bus 37 of power supply 35, operation switch 34, opening contact of button 29 for forced blasting of squibs, opening contacts of relays 18, 19 of sequential blasting of squibs, bus 36 of source 35 nutrition. The relay 26 is activated and closes the power circuit of the indicator light 27, which is illuminated. The operator, seeing a malfunction, presses the button for forced detonation of the igniter. In this case, the bus 37 of the power supply 35 through the operation switch 34, the make contact of the button 29 is connected to the left (odd) windings of the relay 23-25 forced circuit breaker 1-3. The power supply bus 36 through an RC circuit (resistor 31 and a capacitor connected in parallel), through the make contact of the relay 20, the make contact of the relay 21 is connected to the second output of the first winding of the relay 24. While the capacitor 30 is charging, the pulse current flows, the relay 24 operates and breaks its the opening contact of the igniter circuit 2. The above leads to the operation of the relay 18 for sequentially detonating the igniter, which with its closing contact prepares the activation circuit of the igniter 3. The further operation of the device is similar.

 To bring the device to its initial state, it is necessary to press the reset button 28, which provides the inclusion of the right windings of relays 23-25 along the circuit: bus 37 of power supply 35, switch 34, bus 38, make contact of reset button 28, second terminals of left (odd) windings of the relay 23-25 forced break in the circuit of the squibs, bus 36 of the power source 35. The device returns to its original state, capable of continuing to undermine the squibs if it fails again. The RC chain must be selected so that the impulse to turn on one of the relays (one winding) is sufficient for guaranteed operation of one of the relays 23-25. Thus, when a group of squibs is detonated, the magnitude of the detonation current remains constant and equal to the detonation current of one squib. The response current of the relay is not taken into account due to the small value and is not more than 0.5 A. Simultaneously with a decrease in the magnitude of the detonation current of the group of squibs, the operating time of the device increases. However, the total operating time of the device does not exceed 1-3 s and may not be taken into account.

Claims (1)

 DEVICE FOR MONITORING AND DISCONNECTING A CIRCULATOR, containing a current-limiting resistor, a start key, one terminal of which is connected to one terminal of the power supply, the other bus of which is a common terminal for connecting the igniter, a repeater and a light-signal indicator, characterized in that, in order to increase the number of detonated igniter without increase the detonation current, a control button, decoupling diodes, a malfunction board, a resistor and a capacitor connected in parallel, a reset and forced disconnect button are introduced into it pyro cartridges, delay relays, actuation relays, forced open circuit relays and sequential blast relays, another terminal of the start key is connected to one terminal of the current-limiting resistor, one terminal of the reset and forced blow-off buttons, one terminal of the malfunction indicator and one terminal of the windings of the operation relay, another output the current-limiting resistor is connected to a single output of the first decoupling diode and to one output of the serial detonator relay of the first igniter directly, and the rest x pyro cartridge - through the closing contact of the serial ignition relay of the previous pyro cartridge, one of the terminals of the serial explosion relay of the remaining pyro cartridge, except the last one, is connected respectively to the connection points of the closing contacts of the serial explosion relay with decoupling diodes, the other terminals of which, except the last, through the opening contacts of the corresponding forced relays open circuit connected to other terminals of the igniter connection, the other terminal of the last decoupling diode is connected to Directly to the other connection terminal of the corresponding igniter, one terminal of the control switch is connected to one power bus, and the other to one terminal of all light-signal indicators, the other terminals of which are connected respectively to the other terminals of all the igniters, the other terminal of the reset button is connected to one terminal of the first windings forced break relay, the other terminals of which are connected to a different terminal of the power supply, the other terminals of the forced break button are connected respectively to one terminal of the second windings of the forced-relay relay and one terminal of the winding of the delay relay, another terminal of the second winding of each forced relay is connected respectively to the opening contact of the switching group of the operation relay, the switching contact of the switching group of the first forced relay through a parallel-connected resistor and capacitor is connected to another the power supply terminal, the closing contacts of the switching groups of all forced disconnect relays, except the last, connect They are connected respectively with the switching contact of each subsequent forced relay, the other output of the delay relay winding is connected to the disconnecting contacts of the switching groups of the serial overload relay, the switching contacts of which are connected to another power bus, and the closing contacts to the second terminals of the operation relay windings, the other output of the malfunction indicator through the make contact of the delay relay is connected to another bus of the power source.