RU2093896C1 - Device for control of fire-extinguishing equipment - Google Patents

Abstract

FIELD: automation, in particular, automatic fire- extinguishing systems which supply is decentralized and systems for control of manufacturing processes. SUBSTANCE: device has channel connection unit, fire-extinguishing assemblies, alarm unit, power supply, device starting input. Identity circuit, NOT gate, pulse generator, delay gate, loop counter and n channels are introduced to accomplish the goal of invention. N is integer. EFFECT: increased number of controlled fire-extinguishing systems, decreased power consumption, increased reliability. 2 cl, 2 dwg

Description

 The present invention relates to automation and can be used in control systems for fire fighting installations with decentralized storage of fire extinguishing composition, in automated process control systems.

 A control device for fire extinguishing installations is known, comprising a fire alarm sensor connected to a control unit consisting of a first matching circuit, the output of which is through a second matching circuit, the timer control button is connected to the other input of it, connected to a timer, the output of which through the OR circuit is connected to fire extinguishing installation, (see Japan Application N 4-77355, CL G06 B 17/00, 1992).

 The disadvantage of this device is the low reliability and high energy consumption when connecting a large number of fire extinguishing equipment, lack of monitoring of the serviceability of the lines of connection of fire extinguishing systems, limited functionality, because it is possible to connect only one fire extinguishing installation.

A control device for fire alarm installations with peripheral protection settings and a central alarm system is known, comprising a control unit whose output is connected to a protection installation, a power supply whose output is connected to protection settings, to a control unit, to an alarm unit, the input of the latter is connected to outputs protection installations. (see application WO N 91/09391, CL G 08 B 29/06, 1991)
The disadvantages of the device are high energy consumption, because power supply is constantly connected to each start-up installation, in addition, a large amount of equipment when connecting a large number of channels, because Each protection installation requires its own trigger device.

 The technical result of the invention is to reduce energy consumption, increase the reliability of the device.

 The result is achieved in that in the fire extinguishing installation control device, the alarm unit, the power supply, as well as the device start-up input, coincidence schemes, the HE element, a pulse generator, a delay element, a key, a cycle counter and n channels (where n is an integer) are introduced, moreover, the start-up input of the device is connected to the first bus of the power supply unit through a key and to the input of the pulse generator, the output of which is connected to the first input of the signaling unit, to the information inputs of n channels, to the information input and through the delay element to the input of solutions of the channel connection unit, the outputs of which are connected to the n channel resolution inputs, its information output is connected to the input of the loop counter, the reset input of which is connected to the device start input, its output is connected to the reset input of the channel connection unit and through the HE element to the second input of the matching circuit wherein each channel contains a counting switch, to each of k outputs (where k is an integer) of which a controlled key is connected, the output of which is connected to the input of the fire extinguishing installation and to the first input of thresholds of the second element, the outputs of the threshold channel elements are connected to the inputs of the OR element, the outputs of the OR elements of n channels are combined and connected to the second input of the signaling unit, the second inputs of the controlled keys of the n channels are combined and are the channel control input that is connected to the second bus of the power supply, the third bus which is connected to the combined second inputs of the threshold elements of n channels, the outputs of the fire extinguishing installations of n channels are combined and connected to the reserve control input of the channel connection unit, the input of the counting mmutatora each channel connected to an information input channel, its enable input - to the input channel authorization.

 The channel connection block contains a pulse counter, a binary code counter, a multiplexer, a reserve trigger, the first and second switches, the first and second OR elements, while the pulse counter input is the information input of the channel connection block, the pulse counter output is connected to the counter input of the binary code counter, the outputs of which are connected to the inputs of the multiplexer, the outputs of which are the outputs of the channel connection unit and are connected to the corresponding inputs of the first switch, the first and second outputs of which о are connected to the inputs of the switch, the output of which is the information output of the channel connection unit and connected to the first input of the reserve trigger, the second input of which is the reserve control input of the channel connection unit, the output of the reserve trigger is connected to the control input of the second switch, the output of which is connected to the first input of the second OR element, the output of which is connected to the reset input of the counter of binary codes, the second input of the second OR element is connected to the output of the first OR, to the pulse reset input of the counter s, to the control input of the multiplexer, the first input of the first OR element is the enable input, the second input is the reset input of the channel connection unit.

 In FIG. 1 is a structural diagram of a fire extinguishing control device; FIG. 2 block diagram of the channel connection block.

The device (Fig. 1) contains a matching circuit 1, the first input of which is the start input, the output of circuit 1 is connected to the input of the key 3 and to the input of the pulse generator 4, the output of the generator 4 is connected to the information inputs of channels 10 ₁ -10 _n , to the first input signaling unit 9, to the information input, and through the delay element 5 to the resolution input of the channel connection unit 8, the outputs of which are connected to the resolution inputs of the corresponding channel 10, the information output of block 8 is connected to the input of the 6-cycle counter, the reset input of which is connected to during the device’s start-up, its output through HE element 2 is connected to the second input of the matching circuit 1, to the RESET input of block 8, the reserve control input of which is connected to the output of channels 10, the control inputs of which are combined and connected to the second bus of the power supply unit 7, the third bus of which connected to the input of the signaling channels, the alarm output is connected to the second input of the signaling unit 9, with each channel 10 consisting of a counting switch 11, to each output of which a key 12 is connected, the output of which is connected to a threshold element 13, the second input of the threshold elements 13 and combined channel signaling channel are input, the output of threshold elements January ₁₃ -13 _k channels 10 are connected to respective inputs of OR element 14, whose output is the output signaling channel, the output 12 is connected to the set input key 15 fire extinguishing, the output of which for n channels are combined and are the output of channels 10, and the control input of channels 10 is connected to the second inputs of the keys 12 ₁ -12 _k .

 Block 8 connecting channels (Fig. 2) contains an OR element 16, the first input of which is the block enable input, its second input is a reset input of block 8, the output of element 16 is connected to the second input of the second OR element 18, to the control input of multiplexer 23 and the reset input of the counter 21 pulses, the counting input of which is the information input of block 8, the output of the counter 21 is connected to the counting input of the counter 22 binary codes, the reset input of which is connected to the output of the second element 18, the outputs of the counter 22 are connected to the inputs of the multipl Xor 23, the outputs of which are the outputs of block 8 and connected to the inputs of the first switch 20, the first and second outputs of which are connected to the inputs of the second switch 19, the output of which is the information output of block 8 and connected to the first input of the second element 18 OR, to the first input of the trigger 17 reserve, the output of which is connected to the control input of the second switch 19, the second input of the trigger 17 of the reserve is the control input of the reserve unit 8.

 The pulse generator 4 is designed to generate trigger pulses. When triggering pulses appear at its output, a high level is explained, while the signaling unit 9 provides audio and optical information. After the 6-cycle counter calculates 2 cycles, the generator 4 is automatically turned off by coincidence circuit 1.

The delay element 5 is designed to delay the actuation time of the fire extinguishing installations 15 by a time t equal to about 30 seconds, necessary for people to leave the room. After this time, a high signal level appears at the output of element 5, allowing the counter to count 21 pulses and connect the channel 10 _i to the output of the multiplexer 23 of block 8. Can be performed on the 561 IE 16 chip.

 The counter 6 of the cycle is designed to count the number of cycles of polling channels 10, as well as to reset the counters 21 and 22, to issue a prohibition pulse to the multiplexer 23 and transfer the device after the second cycle to standby mode, while the generator 4 and the power supply unit 7 are disconnected from the circuit and on the block 9 alarm is issued information about turning off the standby mode. It can be performed on a chip series 561 IE8.

 The power supply unit 7 contains two voltage sources necessary for connecting the controlled keys 12 of the channels 10 and the operation of the threshold elements 13 of the channels 10.

 The alarm unit 9 is intended for warning of an emergency situation and the operation mode of the device, has an audio and optical alarm.

The counting switch 11 is designed for alternately connecting fire extinguishing installations 15 ₁ -15 _k in the channel. It can be made according to the counter scheme on the 561 IE8 series microcircuit.

 Fire extinguishing installations 15 contain actuators and actuation sensors, the output signals of which connect the backup composition of channels 10.

 Elements 16 and 18 OR can be performed on diodes.

 The trigger 17 of the reserve is designed to connect backup channels 10 in case the actuators of the installations of 15 channels 10 of the main structure do not work. At the initial moment, a low signal level is present at the first and second inputs of trigger 17, and a low level (0) is also output. It can be performed on a chip series 651 LA7 and two inverters.

 The second switch 19 is intended for switching the reset pulse to the counter 22, supplying a pulse to the counting input of the counter 6 cycles and transferring the trigger 17. The switch can be performed on a 567 LA7 series chip.

The first switch 20 is designed for switching the main 10 ₁ -10 _j and backup 10 _{j + 1} -10 _n channels (varying their number) and can be made in the form of a matrix (with a manual switch), while the first output of the switch 20 is the input of the resolution of the last channel 10 _{j of the} main structure, the second output of the switch 20 is the input of the resolution of the last channel 10 _{n of the} backup structure.

 The counter 21 is intended for counting k pulses (polling time for one channel), where k is equal to the number of fire extinguishing installations 15 in the channel, after which it gives a transfer pulse, which is input to the counter 22 of the binary codes. The counter 22 binary codes is designed to generate a binary code, according to which the multiplexer 23 connects the channels 10 for interrogation. Can be performed on a chip series 561 IE8 and 561 IE10, respectively.

The multiplexer 23 is designed for pre-connecting channels 10 ₁ -10 _n . When a permit pulse arrives at the control input of multiplexer 23, the first channel 10 _{1 is} connected to its output. The duration of the output (enable) pulse of the multiplexer 23 is equal to the polling time of one channel. According to the first start-up cycle, multiplexer 23 gives sequential permission to interrogate channels 10 ₁ -10 _{j of the} main structure, according to the second start-up cycle (if fire extinguishing systems 15 do not work in the main composition channels), multiplexer 23 connects the backup channels 10 _{j + 1} -10 _n for polling . The multiplexer can be performed on a chip series 561 KP2.

 The device operates as follows.

At the initial moment, all the counters 6, 21, 22 and the counting switch 11 of all channels 10 are reset. When a start signal (for example, "Fire") is received from the central control panel to the first input of the matching circuit 1 (a signal "1" is present at its second input), a signal will appear at its output, which will start the generator 4 and through the key 3 will connect the power supply unit 7 to channels 10 ₁ -10 _n . An alarm unit 9 will trigger indicating an emergency. After time t, the delay element 5 will give permission to the counter of the counter 21 of the block 8 and to connect to the multiplexer 23 of the first channel 10 ₁ . The pulses from the generator 4 start the counting switch 11, which sequentially switches the poll (start) of the actuators of the installations 15 of the first channel 10 ₁ , the settings are triggered, while the potential changes at the inputs of the threshold elements 13 and a signal appears at the output of the OR element 14, which is fed to the input block 9 alarm and on the board of block 9 appears information about the launch of installations 15.

After receipt of k pulses at counter 21 of block 8 (and at the input of block 11), a transfer pulse will appear at the output of counter 21, upon receipt of which the code will change at the output of counter 22, which corresponds to the connection of the second channel 10 ₂ to the output of multiplexer 23 and t .d. After polling the last channel 10 _{j of the} main structure, the first launch cycle will end. At the first output of the switch 20, a signal appears that goes to the second switch 19, the switch 19 will give a short pulse, which will switch the trigger 17 to the state "1" (high signal level), start the counter 6 cycles and reset the code on the counter 22, which will begin to read from the first channel of the main composition, i.e., the beginning of the second cycle is similar to the first. At the same time, if the settings of the 15 channels of the main structure worked, then in the second start cycle, the second input of trigger 17 will have a low signal level, which will reset trigger 17 to its original state (the reserve will not connect). At the end of the second cycle, a transfer signal (high level) will appear at the output of counter 6, which is fed to the input of matching circuit 1 through element 2 HE; as a result, circuit 1 disconnects generator 4 and power supply unit 7 from channels 10. The device goes into standby mode.

If, upon interrogation of the main composition channels 10 ₁ -10 _j , a malfunction of the actuator of the installation 15 was detected during the first cycle (the installation did not work), then at the end of the first start-up cycle, a signal appears at the output of the switch 20, which will pass through the switch 19 and transfer the trigger 17 to state "1", and, since the signal level at the second input of trigger 17 does not change (setting 15 did not work), then at the output of trigger 17 there is "1" (high signal level), which will connect the second output of switch 20 to switch 19 and, when interrogated by the second cycle, counter 22 will read until the multiplexer 23 issues a permission signal for polling 10 _n channels, i.e. in the second cycle, channels 10 _{j + 1} -10 _{n of the} reserve composition will be connected. This will end the second cycle, the counter 6 of the cycle will give a signal "1" to the matching circuit 1, which will turn off the generator 4 and through key 3 the power from channels 10.

 The device allows you to connect a large number of fire extinguishing installations, while due to their sequential activation (scanning), energy costs are significantly reduced, compared with the known device, the number of equipment is significantly reduced (to start M fire extinguishing installations (M> 2) of a known device, M start blocks are required, in the proposed one).

Claims (2)

 1. A control device for fire extinguishing installations, comprising a channel connection unit, fire extinguishing installation, an alarm unit, a power supply unit, as well as a device start input, characterized in that a matching circuit, an element NOT, a pulse generator, a delay element, a key, a cycle counter and n channels, where n is an integer, and the start-up input of the device is connected to the first input of the matching circuit, the output of which is connected to the first bus of the power supply through a key and to the input of the pulse generator, the output of which is connected to the first input of the unit and alarms, to the information inputs of n channels, to the information input and through the delay element to the enable input of the channel connection unit, the resolution outputs of which are connected to the enable inputs of the n channels, and the information output is connected to the counting input of the cycle counter, the reset input of which is connected to the start input devices, the output of the loop counter is connected to the reset input of the channel connection unit and through the element NOT to the second input of the matching circuit, each channel containing a counting switch, to each of k outputs, where e k is an integer connected by the first input of the controlled key, the output of which is connected to the input of the fire extinguishing installation and to the first input of the threshold element, the outputs of the threshold channel elements are connected to the inputs of the OR element of this channel, the outputs of the OR elements of n channels are connected to the second input of the signaling unit, the second inputs of the controlled keys of the n channels are combined and are the channel control input, which is connected to the second bus of the power supply, the third bus of which is connected to the second inputs of the threshold elements of the n channels rows extinguishing installations n channels are connected to the control input of reserve channels connecting block counting input switch of each channel is connected to the information channel entry and the permission entry to permit entry channel.  2. The device according to claim 1, characterized in that the channel connecting unit comprises a pulse counter, channel number counter, multiplexer, reserve trigger, first and second switches, first and second OR elements, while the pulse counter input is an information input of the channel connecting unit , the output of the pulse counter is connected to the counting input of the channel number counter, the outputs of which are connected to the inputs of the multiplexer, the outputs of which are the outputs of the resolution of the channel connection unit and are connected to the corresponding inputs of switch, the first and second outputs of which are connected to the inputs of the second switch, the output of which is the information output of the channel connection unit and connected to the first input of the reserve trigger, the second input of which is the reserve control input of the channel connection unit, the output of the reserve trigger is connected to the control input of the second switch the output of which is connected to the first input of the second OR element, the output of which is connected to the reset input of the channel number counter, the second input of the second OR element to the output of the first OR gate, to the reset input of pulse counter, to the control input of the multiplexer, the first input of the first OR gate is the input resolution, the second input to the reset input channels connecting block.

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