RU2093895C1 - Device which alarms about squib condition - Google Patents

Abstract

FIELD: automation, in particular, fire-protection systems which fire- extinguishers are triggered by explosion of squibs. SUBSTANCE: device has first power supply 1, commutation unit 2, second power supply 3, indication board 8, fire-extinguishing units 4 which provide matrix of m columns and n rows. Each fire-extinguishing unit has first resistor 9 and diode 10 and squib 11. Second and third resistors 11 and 13 are introduced to accomplish the goal of invention. In addition device has m+n OR gates 5 and m+n indication cells 6 each of which has transistor 17 and diode 15. EFFECT: improved testing, increased stability to noise. 1 dwg

Description

 The present invention relates to automation and can be used to automate systems using pyro cartridge, for example fire systems with fire extinguishers, triggered by the explosion of the pyro cartridge.

A device for signaling a fire containing a power source, the output of which is connected to a voltage divider, the output of which is connected to a control resistor and a parallel circuit consisting of a tuning resistor, an alarm sensor, a relay, as well as the first and second signal elements connected via a key to power source [1]
The disadvantages of the device are small control capabilities and reliability in the construction of automated control circuits.

A device for signaling the state of the igniter, containing a power source, to the bus of which a rectifier on diodes is connected, a signal lamp for troubleshooting, connected to the buses of the power source through a thyristor, the control input of which is connected through a series resistor, a counter diode and another resistor to the test button , a reset button connected between one of the diagonals of the bridge and the second thyristor, the anode of which is connected through the winding of the first relay to another diagonal of the bridge, an element aderzhki, the switching element, the switch signal elements, decoupling diodes, a second relay coil which is connected to the diagonal of the bridge and through the third thyristor to probing the button, resistors, two groups of cells and batteries extinguishing directions, as well as batteries and Pyrocartridges directions [2]
The disadvantages of the device are its small control capabilities, which make it impossible to immediately detect a faulty fire-fighting cell or a communication line break, because to detect a faulty squib in the battery or direction, after the device gives out a general fault signal, use a mechanical switch, low noise immunity of the device, since any short pulse (for example, a lightning pulse) is enough, as an avalanche-like process occurs in the thyristor control circuit, leading to false operation of the device. In addition, the use of thyristors in the device leads to the need for a reset pulse.

 The technical result of the proposed invention is to improve the control and noise immunity.

 The result is achieved in that a pyro cartridge state alarm device containing a first power supply, the first bus of which is connected to the input of the switching unit, a first OR element, a second power supply, an indication board, fire-fighting cells, forming m columns and n rows, each of which consists of a first resistor and a diode, the cathode of which is connected to one of the terminals of the first resistor, its anode is connected to one of the terminals of the squib, the other terminal of which is the first output of the fire fighting cell, the first outputs all fire extinguishing cells are connected to the second bus of the first power source, the other output of the first resistor of the fire extinguishing cell is its first input, the first inputs of the fire extinguishing cells are connected to the corresponding outputs of the switching unit, the second and third resistors are introduced into each fire extinguishing cell, as well as m + n elements OR and m + n indication cells, each of which consists of a transistor and a diode, the anode of which is connected to the base of the transistor and is the information input of the indication cell, the emitter of the transistor through The connected indication element and the resistor are connected to the diode cathode, the transistor collectors and the diode cathode cathodes are respectively their input and output and are connected respectively to the first and second buses of the second power source, the first bus of which is connected to the second input of all fire fighting cells, which is the first the output of their second resistor, the second output of which is connected to the anode of the diode and to the first output of the third resistor, the second output of which is the second output of the fire fighting cell, the second outputs fire extinguishing cells forming m columns are connected respectively to the inputs of m OR elements, the outputs of which are connected respectively to the information inputs of m display cells and to the corresponding inputs of the first OR element, the output of which is connected to the display panel, the second outputs of the fire cells forming n rows are connected respectively to the inputs of n OR elements, the outputs of which are connected respectively to the inputs of n display cells.

 The drawing shows a functional diagram of the device.

The device contains a first power supply 1, a switching unit 2 connected to the first bus of the source 1, the outputs of block 2 are connected to the corresponding first inputs of the fire fighting cells 4, forming m columns, each of which contains n cells 4 (where m and n are integers) , the second inputs of the cells 4 are connected to the first bus of the second power source 3. Cell outputs (4 ₁ 4 _1n). (4 _m 4 _mn), forming the columns are connected respectively to the inputs of elements 5 ₁ 5 _m OR, cell outputs (4 ₁ 4 _m). (4 _1n 4 _mn), forming a row are connected respectively, to the inputs of the elements 5'5 _n OR, the outputs of which are connected respectively to the information inputs of the cells 6 ¹ - 6 _{n of the} indication, the outputs of the elements 5 ₁ 5 _{m are} connected respectively to the information inputs of the cells 6 ₁ 6 _{m of the} indication and to the corresponding inputs of the first element 7 OR , the output of which is connected to the input of the display board 8. Each fire extinguishing cell 4 contains a first resistor 9, one of the terminals of which is the first input of the cell 4, the other terminal is connected to the cathode of the diode 10, the anode of which is connected to one of the terminals of the squib 12, the other terminal of which is the first output of cell 4, the second resistor 11 whose first output is the second input of cell 4, its second output is connected to the anode of the diode 10 and to the first output of the third resistor 13, the second output of which is the second output of cell 4, the first outputs of each cell 4 are connected to the second source bus 1. Each display cell 6 consists of a resistor 14, a diode 15, an indication element 16 and a transistor 17, one of the terminals of the resistor 14 is connected through an indication element 16 to the emitter of the transistor 17, the base of which is the information input of the indication cell 6 and through an on-board diode 15 is connected to the other terminal of the resistor 14 and to the second bus of the source 3, to the first bus of which the inputs of the indication cells 6 are connected, which are the collectors of transistors 17 of the indication cells 6.

 The switching unit 2 can be made in the form of a set of start buttons or start keys, has m outputs, each of which is connected to the first inputs of the extinguishing cells 4, forming a column.

 Elements 5 OR can be performed on diodes.

 The first resistor 9 of cell 4 is trimmer, the second resistor 11 serves to limit the current in the circuit of the squib 12, the third resistor 13 serves to limit the current in the circuit of the cell 6 of the display.

 As the diode 15, a zener diode can be used.

 As an indication element 16, an LED may be used.

 The device operates as follows.

 In standby mode, current flows through the igniter of 12 cells 4: the first bus of the source 3, the second resistor 11 of the cells 4 and the igniter 12 to the second (common) bus of the source 3. At the second output of the cells 4, the voltage is zero, the transistors 17 of the 6 indication cells are closed , display elements 16 do not light.

When voltage is applied to ignite (for example, the k-th column) of the squib 12 through block 2, the current flows through the circuit: the first bus of the source 1, the switch of the k-th column of block 2, the first resistor 9, diode 10 and the squib 12 cells 4 _k 4 _kn , the second (common) bus of the source 1. When igniting the squib 12 k-th column, the current from the second power supply 3 through the second 11 and third 13 cell resistors 4 _k 4 _{kn of the} k-th column goes to the inputs of the elements 5 _k and to the inputs of the elements 5 ¹ -5 _n OR, the output of which the base of the respective transistors 17 of the cells 6 _k (denoting the k-th column) and 6 ^{January 6} and _n dikatsii, denoting the rows in which ignition occurred, the corresponding transistors 17 are opened and light elements January ₁₆ 6 cells _k indicating and June ¹⁶ _n, the output member 5 _k potupaet signal via a first OR element 7 on input board 8 indicating that notifies about the ignition of the pyro cartridge 12 k-th column.

 The device operates in a similar way when the communication line is broken in the circuit of the squib 12. When the communication line is broken, the display elements 16 go out.

 Compared with the prototype, the proposed device has great control capabilities, because there is always information about the state of communication lines and the health of the pyro cartridge, and by the light of the display element it is possible to accurately determine in which cell the malfunction occurred. The device compared with the prototype has greater noise immunity and reliability in operation, because there are no thyristors and when building automated fire systems using a coordinate matrix, fewer equipment and communication lines are needed with the same number of squibs.

Claims (1)

 A squib cartridge alarm device containing a first power supply, the first bus of which is connected to the output of the switching unit, the first OR element, the second power supply, an indication board, fire-fighting cells, forming m columns and n rows, each of which consists of a first resistor and a diode whose cathode is connected to one of the terminals of the first resistor, its anode is connected to one of the terminals of the squib, the other terminal of which is the first output of the fire fighting cell, the first outputs of all fire fighting cells are connected are connected to the second bus of the first power source, the other output of the first resistor of the fire-fighting cell is its first input, the first inputs of the fire-fighting cells are connected to the corresponding outputs of the switching unit, characterized in that the second and third resistors are inserted into each fire-fighting cell, as well as m + n OR elements and m + n indication cells, each of which consists of a transistor and a diode, the anode of which is connected to the base of the transistor and is the information input of the indication cell, the emitter of the transistor through the connected indication element and the resistor are connected to the diode cathode, the transistor collectors and the diode cathode cathodes of the display cells are respectively their input and output and are connected respectively to the first and second buses of the second power supply, the first bus of which is connected to the second input of all fire fighting cells, which is the first output the second resistor, the second terminal of which is connected to the anode of the diode and the first terminal of the third resistor, the second terminal of which is the second output of the fire fighting cell, the second outputs of the cells fire extinguishing columns forming are connected respectively to the inputs of m elements OR, the outputs of which are connected respectively to the information inputs of m display cells and to the corresponding inputs of the first OR element, the output of which is connected to the display panel, the second outputs of the fire cells, forming n lines, are connected respectively to the inputs n OR elements, the outputs of which are connected respectively to the information inputs of n display cells.