UA74697C2 - Linear smoke detector - Google Patents

Abstract

The proposed linear smoke detector can be used in automatic fire alarm systems designed for installation in large rooms. The increase of the optical density of air when smoke is present inside of the detector is detected by the change of the absorption of infrared radiation. The power supply of the detector elements from the two-wire fire alarm loop is provided at low current consumed by the detector, as the emitter of the detector generates short infrared radiation pulses with on-off time ratiomore than 30 000. The pulse power supply of the emitter and the receiver of infrared radiation provides a possibility to reduce the consumed current and indicate the duty operation mode of the detector.

Description

The invention relates to the field of fire alarm - connected to the anode of emitting infrared and can be used in automatic diode systems and the first output of the second capacitor fire alarm as a linear RA, the second output of which is connected to the third terminal of the smoke fire detector for the premises of the washing machine, which is connected to the second terminal and to the first large areas and volumes to detect the increase in the power terminals of the third current switch and the optical density of the air according to the intensity of the pulse generator, the third capacitor for connecting light infrared radiation. between the power terminals of the pulse generator

A well-known smoke detector of fire lines, to the first output of which the input is connected (mulu.zatoha.gy Izveshatel pozharnyi smoke- of the third current switch. voy linear IPDL), which consists of a block of output. The disadvantage of this detector is also the height of the emitter and the receiver block , which consume electric current from two wires located opposite each other on a significant fire alarm loop at a regular distance, connected to each other by a communication line and connected mode of operation, caused by the fact that the unit is routed to the receiving and control device the operator continuously generates pulses in the infrared four-wire circuit of the loop of fire signal radiation of a fixed frequency, and the lization block. The well-known fire detector smoke receiver processes the results of the control optical-electronic linear 6424 of the firm according to the integral characteristics of this frequency buzzer (Lineinjy izvezhatetel 6424. In-signal. Instruction for use. System Sensor Fire. The basis of the invention is the task of changing

Detectors), which also consists of a unit for asking for the current consumption of the detector from the converter and a receiver unit, which are located in the fire alarm loop in the alternate mode, facing each other at a considerable distance, connected between the works due to the use of the one-way communication mode connection and which are connected to the attached pulse parcels of the infrared radiation of the receiving-control four-wire unit of the radiation unit and the synchronous circuit of the fire alarm loop. setting the parameters of these pulses by the receiver unit

Disadvantages of these detectors include the fact that at minimum current consumption, both the unit consumes current in the duty mode of the robot emitter and the receiver unit in the intervals, which does not allow connecting this time detector between pulses of infrared radiation to the receiver-control device using - baths a two-wire loop of a fire alarm. The set task is solved by the fact that in li-

The closest to the invention is a linear smoke fire detector, which is a smoke fire detector (the detector consists of an emitter unit and a smoke fire linear IP212-7 "IDPL-receiver unit, the receiver unit contains the first two terminals, 1". Technical description and instructions for use - the first diode, zener diode, the first and second current transformers Dv2.404.023ТО), consisting of a switch unit, the first and second indicators, a processing unit for the emitter and receiver unit, a signal emitter unit, the first capacitor, an amplifier, and a photocell containing the first two terminals, a first diode, a stabi-diode, and the emitter unit contains an emitter-lytron, the first and second current switches, the first and whose infrared diode, the third and fourth terminals, the second indicators, the signal processing unit, the first second diode and the first current-limiting capacitor, an amplifier and a photodiode, and the block of the element, the second and third capacitors, the third emitter contains the emitting infrared current key and the generator and mpulses, and the first diode, the third and fourth terminals, the second diode and the first current-limiting element connected to the first terminal through the first diode, the second and first outputs of the first current switch and the cathode of the third capacitors, the third current switch and the zener diode, the anode of which is connected to the first the output is a pulse generator, and to the first terminal of the second current switch, the second output of which is connected through the first diode, the first output through the first indicator is connected to the second terminal of the first current switch and the cathode of the zener diode, mine, and the input of the second current switch is connected to the anode connected to the first output of the second to the first output of the signal processing unit, the second current switch, the second output of which through the first output of which is connected to the input of the first current indicator is connected to the second terminal, and the input of the key, the second output which through the second indicator of this current switch connected to the first torus is connected to the second terminal, the first terminal of the output of the signal processing unit, the second and the output of the first capacitor and the first terminals of the power supply is connected to the input of the first current switch, the amplifier and the signal processing unit, the second output of which is connected through the second indicator, the power output of which is connected to the second output with the second terminal, the first terminal of the first power supply of the amplifier and the second terminal of the capacitor and the first terminals of the power supply of the first capacitor, the output of the amplifier of the connecting amplifier and the signal processing unit, the second terminal with the first input of the signal processing unit, and to the power supply of which with A photodiode is connected to the second terminal of the amplifier's feed inputs, the optical amplifier and the second terminal of the first terminal are connected to the infrared emitting capacitor, the output of the amplifier is connected to the first diode, the third terminal through the second diode is connected to the input of the signal processing unit, a photodiode is connected to the amplifier inputs by the input of the first current-limiting element, optically connected to and, the output of which is connected to the emitting anode - an infrared emitting diode, the third infrared diode and the first output of the second terminal through the second diode are connected to the input of the first capacitor, the second output of which is connected to the th current-limiting element, the output of which is the third terminal connected to the second terminal of the block of the receiver and to the first output of the third key 8, the second output of which is connected through the first indicator current key, the first output of the hetor power supply 9 to the second terminal 4 and the first output of the pulse generator and the first output of the third power supply of the processing unit 10 signal The capacitor, the second output of which is connected to the second output of the signal processing unit 10 is connected to the power output of the pulse generator, to the first input of the second current switch 8, and the second output of which output is connected to the input of the third signal processing unit 10 with connected to the input of the current switch, according to the invention, the block of the first current switch 6, the second output of the emitter of which additionally contains the second current through the second indicator 11 is connected to the second limiting element, the fourth current terminal 4, the first terminal of the first capacitor, the key, the first resistor and the third indicator, generator 12 and the first output of the power supply of the amplifier 13. tor of pulses is made with additional outputs, the second output of the first capacitor 12 is connected and the receiver unit additionally contains a fifth terminal, with the second outputs of the power supply of the current comparator processing unit 10, switch, the third of the current signal and amplifier 13, to the inputs of which there is a connecting element and a second resistor, and the block is connected to photodiode 14. Photodiode 14 for optical signal processing is made with additional inputs and outputs emitting infrared LEDs, and the output of the second circuit breaker 15. The third terminal 16 through the second diode 17 and the limiting element is connected to the second the output of the first current-limiting element 18 is connected to the third capacitor, and the input of the second to the anode of the emitting infrared diode current-limiting element is connected to the cathode 15 and the first output of the second capacitor 19. the output of the second diode and the first output of the fourth Second output of the second capacitor 19 through a four-current key, the second output of which is connected from the verte of the terminal 20 is connected to the second terminal 4. The fourth terminal, and the input of the fourth current tod emitting infrared diode 15 of the key is connected to the second output of the generator is connected with the first output of the third current pulses, the third output of which is through the serial key 21, the second output of which is connected to the second connected first resistor and the third indicator subk- terminal of the second capacitor 19 and the first extracted to the first terminal of the third capacitor of the power generator 22 pulses, the first ra, the third terminal is connected to the fifth terminal, the output of which is connected to the input of the third current the first input of the current comparator, language key 21, is connected. The second output of the power supply of the generator, the second input of which is connected to the first terminal, the output of pulses 22 is connected to the first output, the flow of the current comparator is connected to the second input of the third capacitor 23 and by the output of the second current-limiting signal processing unit, to the third input of the current-limiting element 24. The second input of which is connected to a switch, the second output of the current-limiting element 24 is connected to the input of the signal processing unit and connected to the output of the first current-limiting element of the course of the third current-limiting element, 25, the input of which is connected to the second output of the gene- the input of which is connected to the cathode of the first diode, and the rotor of 22 pulses, and the second output is d o the second, the third output of the signal processing unit through the second outputs of the second and third capacitors 19 and 23. the resistor is connected to the second output of the third The third output of the 22 pulse generator through the post-current switch. the first resistor 26 and the third indicator are fully connected

In this way, the linear smoke fire torus 27 is connected to the second output of the third detector, which is powered by a two-capacitor 23. The third terminal 16 is connected to the first input via the fifth terminal 28 of the fire alarm loop. current comparator 29, the small current consumption of this loop is caused by the second input of which is connected to the first terminal 3, and in the alternate mode of operation. This is ensured by the output of the current comparator 29 connected to the second because the emitter unit forms signals at the input of the signal processing unit 10. A switch 30 is connected to the third infrared radiation short-term input of the signal processing unit 10 by relays with significant time intervals between them. - the second output of the first capacitor 12. The third is connected to the receiver unit. In addition, the receiver unit, the output of the signal processing unit 10 through the second re- in the regular mode of operation also provides a mini-sistor 32 connected to the second output of the second low current consumption from the loop of the fire current switch 8. alarm, because the power supply of the unit is the fire alarm signal processing is carried out by pulses from the initialization in this way. When the power supply voltage is applied to the th capacitor synchronously with the signals of the first terminal 3 and 4 of the receiver block 2, the signal is sent to the signal processing unit due to the increase in the potential on the first capacitor of the current comparator. 12, which is charged from the supply voltage through

Fig. 1 shows a block diagram of the linear first diode 5 and the third current-limiting diode of the LED fire detector. ment 31. The first diode 5 protects the others

Linear smoke fire detector (Fig. 1) elements of a linear smoke fire detector - contains block 1 of the emitter and block 2 of the receiver. watch when the polarity of the voltage is wrongly connected

Block 2 of the receiver contains the first two terminals C and 4 for power. Through the input circuits of the comparator 29, the connection of the fire alarm loop, and the current and the fifth terminal 28, the power supply voltage passes through the first diode 5, through which the first terminal C goes to the third terminal 16 of the block 1 of the emitter. connected to the first output of the first current Further, through the second diode 17 and the first current converter 6 and the cathode of the zener diode 7, the anode of which the connecting element 18 is charged is connected to the first output of the second current capacitor 19, and through the second current converter -

the limiting element 24 begins to increase the pulse rate on its third output of the generator potential on the third capacitor 23. The pulse generator 22 switches to the low-torque mode of the 22 pulses will remain in a state of rest, current consumption for a long time, that is, on all its outputs, it will support which ensures the accumulation of energy to a state of a low logic level, until the value on the second and third capacitors 19 and 23. Then the strip on the third capacitor 23 does not reach the process of forming infrared pulses of a given value, for example, 5 V.

After that, additional radiation is repeated.

In the constant mode, the work of the generator 22 pulses is reduced and the operation of unit 1 of the emitter on the terminals of the live output will be formed pulses to set the generator 22 pulses will be established constant frequency and duration, and a voltage will be provided, which will depend little on voltages and the given phase relations between the signal and power supply of the fire alarm loop.

The frequency at the outputs of the generator is 22 pulses.

Such an appearance of synchronizing pulses that appear on the 22-pulse generator can be performed both on the second output of the 22-pulse generator stable specialized controller on discrete elements thanks to the stability of the internal quartz, and on the basis of a microcontroller, for example, the microcontroller generator .

For certainty, its value can be set to 1Hz on the IC1I20672 or IC12E675 microcircuit of the company.

Thanks to the company "Misgospira". These microcircuits have logic inputs of the amplitude of current pulses at the inputs and outputs, analog inputs with a multiplexer and analog switches 21 and 25, stability is ensured by a log-differential converter, internal pulses of infrared radiation and a stable quartz generator, operational memorability of the amplitude of current pulses, the synchronizing device and the internal memory of the work program of the work of unit 1 of the emitter and unit 2 of the receiver (mumlu. tisgospir.sot). When the voltage is connected to the circuit breaker independent of the power supply voltage of the power output of such a microcircuit, a fire alarm loop is carried out.

Short-term light- initial reset and then allowed operation of the shadow of the third indicator 27 provides not only the internal clock generator.

Micro-control stabilization of the voltage value on the third controller performs its function according to the earlier programmer 23, but also the indication of the next mode to the programmed program.

In our case, the operating program of unit 1 of the emitter.

The signal processing unit 10 begins with a certain time delay, which, like the pulse generator 22, is designed to allow the voltage on the third capacitor base of the controller, which has at least one analyzer 23, to exceed a given value, for example, 10,905 input, two logical inputs and three outputs.

This is relative to the initial value.

Then, on the third requirement, the same microcircuits of the company meet the output of the generator of 22 pulses, "Misgospire" is installed. The first input of the signal processing unit 10 is a high potential level and the discharge starts is an analog input of the controller.

The signals of the third capacitor 23 through the second output of the amplifier 13 are analyzed and the third output of this pulse generator 22 is analyzed by the signal processing unit 10 for a certain time, the first resistor 26 and the third indicator 27. Duration after the synchronizing pulse on the second pulse on the third output of the generator 22 inputs.

The algorithm for processing incoming pulse signals is selected in such a way that the capacitor discharge at the first and second inputs of the processing block 10 of the signaling device 23 is limited to 4.5 V.

In the center, lu depends on the state of the switch 30, that is, on this pulse, that is, at the time of the inverse logic signal arriving at the third input of the voltage of 5 V on the first and second of this block.

The switch 30 has two states: CALIB - the outputs of the generator 22 pulses form a series of DRIVE and PROTECTION.

In the state of CALIBRATION of short pulses, which necessarily starts with the switch 30, the signal processing unit 10 forms a pulse at the second output.

During this per- the control signal on its three outputs of such a pulse opens the fourth current so that the change in the consumption current from the loop key 25, ensuring the passage of the synchronizing fire alarm connected to the input of the current pulse through the second diode 17, the third terminal C and 4 would not be able to change the state of terminal 16 and the fifth terminal 28, as well as the input circuits of the fire alarm loop.

If the comparator switch is 29 current.

From the output of the comparator 29 30 is in the CALIBRATION state, then after the current, the voltage pulse enters the second input of the supply voltage connection, the following signal processing blocks 10 are possible.

After this combination of signals at the inputs of the pulse processing unit 10 at the first output of the pulse signal generator 22: a series of short pulses is formed, a) there are no synchronizing pulses on the second current switch 21. Pulses are current inputs, and the signal state on the first entry is arbitrary; mu, passing through the emitting b) there are synchronizing pulses on the second infrared diode 15, ensure the formation of an input with a frequency of 1Hz, and the signal state on the first pulses of infrared radiation.

This input corresponds to a high level; radiation through the optical systems of block 1 c) there are synchronizing pulses on the second emitter and block 2 of the receiver, as well as through the inputs with a frequency of 1Hz, and the signal state on the first controlled air space, arriving at the input corresponds to the normal signal level; photodiode 14. After amplification by the amplifier 13 d) there are synchronizing pulses on the second voltage pulses are sent to the first input of the input block with a frequency of 1 Hz, and the signal state is on the first signal processing.

The amplitude of the input voltage pulses corresponds to a weak level; at the output of the amplifier 13 will depend on the opti- d) there are synchronizing pulses on the second air density located between the input block with a frequency of 1 Hz, and on the first input there are no emitters 1 and receiver block 2.

After the

pulses that can be reliably identified as useful will pass the current signal through the first indicator 9; significantly less than in case 6). Such

In the situation of the corresponding case a) - the unit 10 will analyze the state of the amplifier 13 for 2 seconds with a normal signal level at the output of the signal maker, the first indicator 9 will light up at the second input and if this state does not change, hide from with a frequency of 1Hz and low brightness, then three pulses are generated on all three outputs, and the second indicator 11 will not light up. less than 50 ms. Through the first indicator 9, In the situation of the corresponding case d) - block 10, the second resistor 32, the third output and the second output of the signal pin synchronizes the operation from pulses to the input of the signal processing block 10 is carried out at its second input and if the signal level is partial discharge of the first capacitor 12. The impulse at the first input will be lower than the two set for ls that enters the input of the first current mode CALIBRATION values, then on the second and key 6, ensures the passage of current in the third outputs of the signal processing unit 10 but the outputs of this key 6, of the second indicator 11, pulses with a duration of less than 50ms are generated by the first diode 5 and terminals C and 4. The incoming pulse with a frequency of 1 Hz. Through the second resistor at the input of the second current switch 8, the fuse 32 and the first indicator 9, the current will flow frequently in the circuit of the outputs of this current discharge of the first capacitor 12. In the same switch 8, the first indicator 9, the first diode 5 and the time will pass through the second indicator 11 to terminals C and 4. The duration of the current pulse, which is set by the first current switch 6. is set from the fire alarm loop. device of the receiver-amplifier 13, the first indicator 9 will light up - fire control, to which it is connected this hide with a frequency of 1 Hz and a low brightness of the fire alarm loop, according to GOST, and the second will light up synchronously with it 26342-84 "Security devices and fire alarm indicator 11. lysis. Type, main parameter and size.", In the situation of the corresponding case d) - block 10 must change its state. Then the signal processing unit 10 synchronizes the operation from pulses to signal processing, analyzes for 0.5 s the state at its second input, and if the first input differs from its second input and if it does not change, then the essential pulses, which can be reliably isolated as forming again on all three outputs pulses are a tri-use signal, then on the first and second outputs the amplitude is less than 50 ms. Then the signal processing block 10 will be formed again for 2 s, then 0.5 s, and so on. Such pulses with a duration of less than 50ms with a passing frequency of 2Hz in the absence of electrical connection between the pulses. At the same time, at its third output, units 1 and 2 of the emitter and receiver, i.e., when a signal with a passing frequency of 1Hz will be formed in the absence of synchronization pulses on the second input, thereby ensuring the stability of the circuit and signal processing unit 10, the synchronization will be broken of the discharge of the first capacitor 12. Thus, the ronization and both indicators 9 and 11 of block 2 of the receiver, in case of a significant disorder of the optical systems of blocks 1 and 2 of the match, will not light up synchronously with the indicator of the emitter and receiver or in the case of a complete breakdown of 27 block 1 of the emitter. This mode of operation of the detection of the sensitive zone of the linear smoke fire alarm is the alarm of the detector, that is, when the first input is absent and in this case it is necessary to eliminate impulses that can be reliably identified as a useful malfunction. signal both indicators 9 and 11 of block 2 of the receiver

In the situation of the corresponding case b) - block 10 will flash synchronously with each other, but when the signal synchronizes the work from pulses twice as often as the indicator 27 of block 1, the second input will be read and if the signal level is on the converter. at the first input above the one set for the mode, Block 10 of signal processing synchronizes its

CALIBRATION value, then on the first and second from the pulses coming from the unit 1 and the outputs of the signal processing unit 10 there will be radiation through the current comparator 29. After the generated pulses with a duration of less than 50ms from the analysis of the analog signal at the output of the amplifier with a frequency of 1 Hz. Through the second resistor 13 and the formation of pulses at its outputs, the torus 32 and the first indicator 9 will occur when the signal processing unit 10 switches to the filament discharge mode of the first capacitor 12. In the same narrow current consumption. time through the first indicator 9 will pass To ensure normal operation, the linear current set by the second current switch 8. of the smoke fire detector in the mode

Thus, with a high signal level at the output of the GUARD, it is necessary to first calibrate its amplifier 13, the first indicator 9 will be calibrated in the CALIBRATION mode. Blocks 1 and 2 are hidden with a frequency of 1 Hz, and the second indicator 11 of the emitter and receiver is placed in the pre- will light up. guarded puppies, friend opposite each other, connected

In the situation of the corresponding case c) - block 10 renews them among themselves and connects them to the loop of making a signal that synchronizes the work from pulses on the fire alarm system. After connecting the voltage to its second input and if the power signal level is monitored by indicators 9 and 11. the first input will be between the two values set for the CALIBRATION mode. 2, the emitted output of the signal processing unit 10 will be a watcher and a receiver in such a way as to provide generated pulses with a duration of less than 50ms with a high signal level at the first input of the unit 10 with a passing frequency of 1Hz. Through the second signal processing resis. Then change the coefficient of the inverter 32 and the first indicator 9 will occur the frequency connection of the amplifier 13 and achieve a short discharge of the first capacitor 12. However, normal signal level at the first input of the signal processing unit. After that, an overcurrent that charges the first capacitor of unit 2 of the receiver into PROTECTION mode is possible. When 12. the state of the switch 30 changes, the algorithm changes In the situation of the corresponding case b) - the input signal processing unit 10 with the signal processing unit 10 synchronizes the operation from pulses to zeros. First of all, the levels of the permissible second input change and if the signal level at the first input of the processing unit 10 is higher than the value set for the signal mode in the regular mode of operation of the linear fire protection, then there will be a speech fire alarm at the first output. At the same time, the lower formed pulses with a duration of less than 50ms and the level of the permissible value of the signal correspond to a frequency of 1Hz, and at the third output - pulses with a duration of more than 70ms and a frequency of air in the protected room correspond to the selected level of attenuation of the optical density. walking 1 Hz. Through the second resistor 32 and the first

As in the CALIBRATION mode, so in the indicator 9 mode, a partial discharge will occur

PROTECTION after the supply voltage is applied to the terminal of the first capacitor 12. At the same time, the following combinations of signals are possible through the terminals 4, the current will pass to the second indicator 9, which is set by the second current switch 8 at the inputs of the signal processing unit 10. This current from a) there are no synchronizing pulses on the second indicates the level of the short-circuit current in the input, and the signal state on the first input is arbitrary; fire alarm loops. Therefore, the device receives b) there are synchronizing pulses on the second small control, to which this input is connected with a frequency of 1 Hz, and the state on the first input is off-loop, should record the malfunction of this indicates a high signal level; plume Thus, at a high signal level c) there are synchronizing pulses at the second output of the amplifier 13, the first indicator 9 is input with a frequency of 1 Hz, and the state at the first input flashes with a frequency of 1 Hz, and the second indicator indicates a normal signal level; 11 will not be lit. d) there are synchronizing pulses on the second In the situation of the corresponding case c) - block 10 bypass with a frequency of 1 Hz, and the state on the first input of the signal sampling synchronizes the operation from pulses to a weak signal level; its second input and if the signal level on d) there are synchronizing pulses on the second first input will be between the two set for the input with a frequency of 1 Hz, and on the first input there are no PROTECTION mode values, then on the third pulses that can be reliably isolated as a useful output of the processing unit 10 signal will be generated. these pulses with a duration of less than 50ms with a frequency

In the situation of the corresponding case a) - block 10 of 1 Hz. Through the second resistor 32 and the processing of the signal, the state is analyzed for 2 s, according to a kind of indicator 9, a partial expansion of the second input will occur, and if it does not change, then the diode of the first capacitor 12. Thus, it stops at the first output pulse duration at the normal signal level at the output of the amplifier is less than 5 Ohms and at the third output the pulse duration is 13, the first indicator 9 will flash with a frequency of more than 70ms. Due to the first indicator 9, the 1Hz wire and low brightness of the glow, and the second other resistor 32, the third output and the second output, the indicator 11 will not light up. Such an indication state of the signal processing unit 10 is carried out by the torus 9 and 11 corresponds to the next mode of operation, the partial discharge of the first capacitor 12 of the impulse linear smoke fire detector, with a pulse duration of more than 70ms, which is supplied on which the minimum current consumption is carried out at the input of the second current switch 8 , provides pro- from the fire alarm loop. flow of current in the circuit of the outputs of this key 8, In the situation of the corresponding case d) - the unit 10 of the first indicator 9, the first diode 5 and terminals C and 4. signal generator synchronizes the operation from pulses on

Therefore, the receiving and control fire alarm device, at its second input and if the signal level to which these terminals C and 4 are connected, must be fixed at the first input will be lower than the two established to prevent a change in the state of the fire alarm loop. value PROTECTION mode, then on the second and third

Then the signal processing unit 10 analyzes during this period the outputs of the signal processing unit 10 will have a state at its second input for 0.5 s and if it is not formed in a row several, for example five, pulses change, then again forms at the first output ls with a duration of less than 50ms with a pass frequency of less than 50ms and a third output of 1Hz. Through the second resistor 32 and the first pulse lasting more than 70ms. Thus, with the indicator 9, a partial discharge will occur due to the absence of electrical connection between blocks 1 and 2 of the first capacitor 12. At the same time, through the second emitter and receiver, i.e., with the absence of the indicator 11, a current will pass, which is set by the synchronization pulses on the second input of block 10 by the first current switch 6. Thus, signal processing will be disrupted, and with a weak signal level at the output of the amplifier, the first indicator 9 of block 2 of the receiver will light 13, the first indicator 9 will flash with a frequency not synchronous with indicator 27 of block 1 winding 1 Hz and low brightness of the glow, and synchronously with the radiator. The current that will be formed with it will light up the second indicator 11. If the current key 8 is used, it will correspond to the level of the short-circuit current in the fire loop during the time allotted for these several pulses, the level of the signal at the first input of the alarm processing unit 10. The device is a receiving and control device, before the signal will return to the normal value to which this loop is connected, a malfunction of this loop must be fixed on the second output of this block. When switched on, the potential signal that opens the first current of the second current switch 8 zener diode 7 safety switch 6. The current consumed by the loop is heard at the input of the third current-limiting electric fire alarm by the detector, the voltage 31 will increase, at which the sta- to the value corresponding to the FIRE mode. Dru-

The first indicator 11 will glow continuously, and the first indicator will flash synchronously with it, and the third indicator 9 will flash with a frequency of 1 Hz, the third indicator 27. For each synchronizing and low-brightness glow, and synchronously with it, the pulse that will appear on the second input, on tre- the third indicator 27 will also flash. In connection with this, the output of the signal processing unit 10 will be the fact that pulses are formed on the second input of the signal processing unit 10 that provide regular synchronizing pulses will come, then on partial discharge of the first capacitor 12. In the third output of this block, there will be constant fort- at the same time the state at the first input of block 10 is processed pulses forming a regular part of the signal ceases to be analyzed. Output block 2 current discharge of the first capacitor 12. In the same receiver from such a state, it is only possible to turn off the state at the first input of the signal processing block 10 for a few seconds of the supply voltage. Thus the nalu ceases to be analyzed. In the FIRE state, with a significant disruption of the optical systems, block 2 of the receiver remains as long as there are blocks 1 and 2 of the emitter and receiver, or if the supply voltage remains for a long time at terminals Z and overlaps the sensitive zone of linear smoke 4. Therefore, remove block 2 the receiver from such a state of the fire detector in the fire alarm loop can only be turned off for a few seconds, and a NO power supply signal will be generated for a few seconds. WORKING, after which the alarm automatically

In the situation corresponding to case d) - the block 10 will again switch to the regular mode of operation, and if the signal generator synchronizes the operation from pulses to the situation has not changed, then after a few seconds in its second input. If a FIRE signal is generated at the first input of the bush cable. there are no pulses that can be reliably isolated. In this way, the linear smoke fire alarm as a useful signal several times in a row, for example, the detector, which is powered by two-way five, then after five pulses on the third wire loop of the fire alarm , at the output of the signal processing unit 10, the duration is limited by the small current consumption from this loop of 5 Ohms and the frequency of 1 Hz at the first output of the unit in the alternate mode of operation due to the fact that the signal processing unit forms a long, several 1 emitters form infrared signals, a pulse , during which the current increases in the chain of the radiation loop by short-term fire alarm messages. This is a few pulses, while the sparring current corresponds to the level of the short-circuit current. Pulses exceed 30,000. In the sparring analog, therefore, the device for receiving and controlling the frequency of infrared pulses cannot detect the malfunction of this loop. Exceeds 1000. In addition, unit 2 of the receiver, in which the detector will again switch to the alternate mode of operation, also provides mini-robots for a few seconds. If again at the first small current consumption from the loop of the fire entrance, there will be no pulses that can probably be signaled, because the power supply of block 10 can be isolated as a useful signal, several times in a row, signal processing is carried out with pulses from, for example, five, then after five pulses on the recording first capacitor 12 on the second output of the signal processing unit 10 with a duration of synchronization pulses coming from unit 1 of less than 50 Ohms and a frequency of 1 Hz on the second output of the transducer to unit 2 of the receiver. The organization of the block will establish a potential signal that pulses the emitter blocks and opens the first current switch 6. The current that the receiver allowed not only to reduce the current consumed by the fire alarm loop, the current from the fire alarm loop, by the detector, will increase to the corresponding value, but also provide optical indication of the next FIRE mode. The second indicator 11 will be the mode of operation of these linear smoke units and will light up continuously, and the first indicator 9 will be a fire detector. flash with a frequency of 1 Hz and low brightness

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Fig. 1

Computer layout M. Klyukin Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601