RU2331929C2 - Device of targeted fire alarm - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: installation and operational control cover switch modes of automatic firefighting system control circuits; centralised control of functional state of each targeted fire call point in the fire alarm system; fast fire localisation and beginning of firefighting operation; uninterrupted operation of targeted fire alarm system even in the case of failure of one targeted fire call point; registration and storage of up to 1000 alarm instances happened within a detection period in the energy-independent memory of electronic drive circuit.

EFFECT: improved reliability and maintenance convenience of the device.

2 dwg

Description

The invention relates to the field of fire alarm and can be used in an addressable fire alarm system for various objects, in particular nuclear power plants.

A fire alarm device is known, described in patent EP 0365372 (publ. 1990.04.25), containing an electronic control circuit with non-volatile memory and a real-time clock, connected by information inputs and outputs with a pairing unit, and a data input-output through a programming interface unit with an input -Output data input-output block.

The disadvantage of this fire alarm device is the lack of control and monitoring of automatic fire extinguishing systems, the difficult visualization of information about the state of both the controlled elements of the addressable fire alarm system, and the whole system, the lack of information on dust levels and the nature of testing of controlled fire detectors.

A control and monitoring device for automatic fire extinguishing systems, described in patent RU 2114660 (publ. 1998.07.10), containing an electronic control circuit connected by corresponding inputs and outputs with interface units, indication units, a power supply unit, was selected as a prototype.

However, the above-described device is non-addressable, which does not allow to accurately determine the place of the fire and visually control the parameters of the fire alarm system, and it lacks the functions of indicating and controlling the switching mode of the automatic fire extinguishing circuits, which does not allow to simultaneously set different switching modes of the control circuits of automatic fire extinguishing systems.

The inventors were faced with the task of creating a reliable and easy-to-use addressable fire alarm device that combines the functions of detecting a source of fire and alarm events of a fire alarm system (loop failure, system as a whole, dustiness of the addressable fire detector, testing, loss of connection with a controlled by a fire detector) with reference to time and to a specific guarded room and in a form convenient for a person notifying on-duty personnel about events that have occurred by means of text, light and sound messages, which allows you to quickly establish and control various modes of switching on the control circuits of automatic fire extinguishing systems, smoke removal or remote fire alarm devices in the event of a fire at a guarded facility, as well as keep a log of alarm events.

The problem is solved in that an addressable fire alarm device is proposed that contains an electronic control circuit that is electrically connected by information inputs and outputs through an interface unit and addressable fire alarm loops with addressable fire detectors, data input with an output data input unit, data output with an information display unit , the output of pulse width modulation with the input of the sound alarm unit.

New in the inventive addressable fire alarm device is that the indication and control units for the automatic fire extinguishing circuit activation mode and the start button are introduced, electrically connected to the control input of the electronic control circuit and the manual start input of each of the display and control automatic fire extinguishing circuit control units, connected by their logical inputs and outputs with the corresponding logical outputs and inputs of the electronic control circuit, and control outputs with circuits automatic fire fighting and each of which contains a first transistor switch and a voltage support circuit connected in parallel to the first logical input / output, a second transistor switch connected to the second logical input, a mode selector switch connected to the second and third logic outputs and connected in parallel a light indicator and a relay, also connected to the manual start input and to the control outputs, the transistor of the first transistor switch being connected by the base through the first resistor to the first ogicheskim input-output emitter is grounded, and the collector of a tumbler selection mode, the transistor of the second transistor switch base is connected via a second resistor to a second logic input, an emitter to ground, and a collector through a third resistor with the indicator light.

The technical effect of the invention is the installation and operational monitoring of the switching modes of the control circuits of automatic fire extinguishing systems, centralized monitoring of the functional state of each connected addressable fire detector, providing quick localization of the fire and the beginning of its extinguishing, continuous operation of the addressable fire alarm system even in case of failure of one addressable fire detector.

In Fig. 1, a general diagram of an addressable fire alarm device is shown; in Fig. 2 is a display and control unit for switching on automatic fire extinguishing chains.

The addressable fire alarm device contains an electronic control circuit 1 (Fig. 1), which serves for continuous monitoring of the state of the addressable fire alarm system and contains, for example (not shown), multiplexers, two microcontrollers (for example, single-chip eight-bit FLASH CMOS microchip type PIC16F877A from Microchip Technology Incorporated, USA - Technical Documentation DS 39582 A), real-time clock for binding events to time with independent power supply from a lithium battery, external non-volatile memory, storing previously recorded information about an object or part of an object controlled by this addressable fire alarm device, about protected areas and addressable fire detectors assigned to them (not shown), and an event log that records information about the type of event, time and place of occurrence of this event, galvanically decoupled interface conversion circuitry (for example, TTL-RS485), providing communication with the computer when remotely updating the software of the declared fire alarm device, and Also, if you its functioning as a part of the network where the computer is leading, and several devices address fire alarm is driven. The electronic control circuit 1 (Fig. 1) is electrically connected by the first information inputs / outputs through the interface unit 2, which serves to convert information signals from the electronic control circuit 1 into currents and voltages of the communication interface of the addressable fire alarm device with addressable fire detectors (not shown), electrically connected to the loops 3 of the address fire alarm, serving to supply voltage and transmit signals of the communication interface; data input with the output of the data input unit 4, which serves to enter control information and is made, for example, in the form of a twelve-button matrix keyboard; data output with information display unit 5, which serves for a convenient operator to visually display information input from data input unit 4 or received from addressable fire detectors, and made, for example, in the form of a four-line vacuum-fluorescent indicator having twenty familiarity per line; pulse-width modulation output with the input of the audible alarm unit 6, which provides an audible signal when the fire alarm system detects a fire condition and is made, for example, in the form of an audible buzzer; logical inputs and outputs with corresponding logical outputs and inputs of n indication and control units for switching on automatic fire extinguishing circuits 7 ₁ -7 _n (Figs. 1, 2), quantitatively corresponding to the number of automatic fire extinguishing circuits (or fire extinguishing directions) and used to turn on, indicate , control and monitoring of the mode of switching on the control circuits of automatic fire extinguishing systems (not shown), smoke exhaust or remote addressable fire alarm devices, electrically connected ohm of automatic fire extinguishing circuits with control outputs 8 (figure 1); a control input with a start button 9, which serves to simultaneously turn on all automatic fire extinguishing circuits (not shown) located in the manual start mode, located, for example, on the front panel of the device associated with the manual start input of each of the n blocks of indication and control of the automatic circuit switching mode fire extinguishing 7 ₁ -7 _n (Fig.1,2), connected by the control outputs 8 with automatic fire extinguishing circuits. Moreover, each of the n blocks of indication and control of the inclusion of automatic fire extinguishing circuits 7 ₁ -7 _n contains the first transistor switch 10 (Fig. 2) and a voltage support circuit 11 connected in parallel to the first logical input-output, the second transistor switch 12 connected to second logic input, toggle mode selector 13, which serves for setting and switching the operating mode n blocks indicating and control mode switching circuit automatic fire July ₁ -7 _n, e.g. tumbler at three positions corresponding to D the imam is “manual”, “automatic”, “disabled”, located on the front panel of the device, connected to the second and third logic outputs and with a parallel on indicator light 14, which serves for color indication of fire detection and on mode, located on the front panel of the device and made, for example, in the form of a three-color optical LED, and a relay 15, also connected to the manual start input and to the control outputs, the transistor of the first transistor switch 10 being connected by the base through the first resistor to the first logical input-output, an emitter with a common wire, and a collector with a mode selector switch 13, the transistor of the second transistor switch 12 is connected by a base through a second resistor to a second logical input, an emitter with a common wire, and a collector through a third resistor with a light indicator 14. Moreover contacts of 16, 19 and 17, 21 are closed in the automatic mode selector switch 13, and 16, 18 and 17, 20 are closed in manual mode. In addition, to control the operation mode of the display units and control the mode of switching on the automatic fire extinguishing circuits 7 ₁ -7 _n , the connection of its second and third logic outputs connected to the conclusions 20, 21 of the mode selection switch 13 is used, through the corresponding current-limiting resistors 22, 23 to the power supply.

The addressable fire alarm device operates as follows. A voltage is applied to a device electrically connected to an addressable fire alarm system (not shown in FIG.). The electronic control circuit 1 initializes the addressable fire alarm device according to the program stored in its non-volatile memory, analyzes the state of the addressable fire detectors, determines the operation mode: “STANDBY” mode with proper operation of all elements of the addressable fire alarm system and the absence of monitored events, “FAULT” mode »If there is a discrepancy between the description of the addressable fire alarm system stored in non-volatile memory and its current state , “DUSTY” mode when detecting addressable fire detectors that have reached the level of preliminary or critical dustiness, “ATTENTION” mode when detecting zones in which a single addressable fire detector has been triggered, “FIRE ALARM” mode when detecting zones in which one and more manual fire detectors, and / or two or more targeted fire detectors. The operating mode is displayed on the screen of the information display unit with the date and time.

When all the elements of the addressable fire alarm system work properly and there are no controlled events, the addressable fire alarm device is in the “STANDBY” mode. The electronic control circuit 1 periodically checks (for example, once every three seconds - one addressable fire detector) the presence of all addressable fire detectors prescribed during configuration, for example smoke and / or thermal, and / or combined addressable fire detectors, manual addressable fire detectors, is monitored loss of communication with any addressable fire detector, which may be caused by the absence of an addressable fire detector, its malfunction, breakage or disconnection of a loop containing a test yaemy addressable fire alarm. In addition, the dust level of the detectors is monitored and a short circuit in the loop is detected.

Various events (alarming, test, malfunctioning or dusty), controlled by the electronic control circuit 1 and displayed by notifications on the screen of the information display unit 5, have different priorities, which allows the operator on duty to process the most critical events in the first place. The highest priority are alarming events (the operation of one or more addressable fire detectors), which translates the device into the “ATTENTION” or “FIRE ALARM” modes. The following are the test events that occur when testing addressable fire detectors using a laser pointer or a button located on the detector, displayed on the screen of the information display unit with 5 notifications “TEST: BUTTON” or “TEST: LASER”, followed by malfunction events caused by loss of communication with an addressable fire detector or its breakdown and putting the device into the “MALFUNCTION” mode, and dust events that put the device into the “DUSTY” mode have the lowest priority.

An electronic control circuit 1 when registering any of the controlled events on the screen of the information display unit 5 displays an event notification. When several events with different priorities arrive consecutively, a notification about an event with a lower priority is automatically replaced by a notification about an event with a higher priority. When several events with the same priority arrive sequentially, if the operator on duty did not confirm (did not clear) the received notifications by pressing the 0 key of the keyboard (not shown) of the data input unit 4, event notifications are viewed on the screen of the information display unit 5 by pressing the keys “2” (up), “8” (down) of the data input unit 4, and when you press the key “5”, a notification about the most recent event is displayed on the screen. The transition from the event screen to the operation mode screen is made by the operator on duty by pressing the “*” key. Electronic control circuit 1, regardless of the actions of the operator on duty, events are continuously recorded in the event log, which provides the possibility of re-viewing them, and when you are in the operating mode screen, you can quickly view information sorted by type of event: by pressing the “1” key of the data input unit 4 - alarm events, by pressing the “2” key - numbers of addressable fire detectors tested by the button, by the “3” key - numbers of addressable fire detectors tested by laser pointer Coy.

If a malfunction is detected by the electronic control circuit 1, the addressable fire alarm device is switched from the “STANDBY” operating mode to the “MALFUNCTION” mode with the display of the information message unit 5 on the screen of the corresponding message, indicating at least one malfunction, and the formation of a malfunction record in the event log indicating the time of detection of the malfunction, as well as a record of specific malfunctions. For example, in case of loss of communication with any addressable fire detector, electronic control circuit 1, a message about the loss of communication containing the date, time, address and type of the addressable fire detector is displayed on the screen of the information display unit 5, and a corresponding record is created in the event log. By pressing the "0" and "*" keys of the data input unit 4, the duty operator confirms receipt of the notice and then actions are taken to restore communication with the addressable fire detector or replace it in case of malfunction. After the communication is restored, the electronic control circuit 1 in the event log creates a corresponding record of the restoration of communication with the addressable fire detector (also containing the date, time, address and type of the addressable fire detector) and, if there are no other malfunctions in the system or they have been eliminated, a record of restoration of the system, and the device is transferred to the "DUTY" operation mode.

When registering a fire message from one addressable fire detector with an electronic control circuit 1, an “ATTENTION” notification is displayed on the screen of the information display unit 5, and an “ATTENTION” sound signal is turned on at the sound alarm unit 6, then the receipt of information is blocked (for example, for 15 minutes) a signal from a triggered addressable fire detector so as not to prevent other addressable fire detectors from transmitting their information signals. Unlocking the receipt of the information signal occurs automatically after the expiration of the blocking time or when registration by the addressable fire detector stops exceeding the threshold of the controlled parameter. An unblocked addressable fire detector generates a notice of a newly detected fire in the next interrogation cycle by electronic control circuit 1. When the duty operator resets the warning message “ATTENTION”, the addressable fire detector will issue a repeated fire warning after unlocking if it detects a fire during the entire blocking time fire. If the operator did not reset the “ATTENTION” notice, then the following options for the operation of the addressable fire alarm device are possible:

a) if in the zone to which the addressable fire detector that issued the fire message is assigned, during the blocking time, no addressable fire detector has been triggered and the first addressable fire detector no longer detects a fire, the addressable fire alarm device automatically switches to operating mode "DUTY";

b) if in the zone to which the addressable fire detector that issued the fire message is assigned, during the blocking time, no addressable fire detector has been triggered and the first addressable fire detector continues to transmit the fire message, the addressable fire alarm device continues to be in "ATTENTION". An addressable fire detector generates a fire signal after each release until it detects a fire. Notifications about events are viewed by the operator on duty on the screen of the information display unit 5 by pressing the keys “2” and “8” of the keyboard of the data input unit 4, and pressing the key “5” displays the latest event;

c) if, in the zone to which the addressable fire detector that issued the fire message is assigned, a second fire alarm is triggered, then the electronic control circuit 1 determines whether the first fire address fire detector continues to be in the state of fire registration, and if so, on the screen of the information display unit 5, the “FIRE ALARM” notification is displayed, containing the time of detection of the operation of the second addressable fire detector, the name of the zone and the address of the second address fire of the detector, a fire alarm is activated on the audible alarm unit 6, and indication units and control units for the automatic fire extinguishing circuits 7 ₁ -7 _n related to the zone are turned on if their mode selector switches 13 are located on the front panel of the addressable fire alarm device, were installed in the automatic mode of inclusion of automatic fire extinguishing circuits.

In the automatic on mode, contacts 16, 19 and 17, 21 of the mode 13 selector switch are closed, a high-level logic signal from the electronic control circuit 1 is transmitted to the first logical inputs and outputs and second logical inputs of the indication and control units of the automatic fire-fighting circuit enable mode July ₁ -7 _n, and in each block open key transistors of the first transistor 10 and second transistor switch 12, through an open first transistor switch 10 includes connected thereto through the dial you Mode 13 of relay 15 and the green light of indicator 14, and through the second transistor switch 12, the red color of indicator 14 is turned on, which generally gives an orange glow of indicator light 14. The control circuits of automatic fire extinguishing systems are turned on by closing the contacts of relay 15. When the relay is turned on 15, a low-level voltage at the first output of the relay coil turns on the transistor of the voltage support circuit 11, which supports a high-level voltage at the first logical input-output in the event of a failure branching logical signal from the electronic control circuit 1. This technical solution one output of the electronic control circuit 1 is used not only to turn on and off the first transistor switch 10 (that is, to control the display unit and control the mode of inclusion of automatic fire extinguishing circuits 7), when this output is logic output, but also for monitoring the status of relay 15 (on or off) when the output is configured as a logical input. When applying electronic control circuit 1 to the first logical input-output of the indication and control unit for switching on the automatic fire extinguishing circuits 7, the low level voltage transistor of the first transistor switch 10 closes and turns off the relay 15, the green light of the indicator light 14 and the transistor of the voltage support circuit 11, when closing which disconnects the pull to a high level of the first logical input-output. In manual on mode, the contacts 16, 18 and 17, 20 of the mode 13 selector switch are closed and the first logical input-output works as a logical output and only to control the relay 15. The transistor collector of the first transistor switch 10 is disconnected from the relay coil 15 using the selector switch Mode 13. The relay 15 is activated by pressing the start button 9 for a short circuit of the manual start input to a common wire. When the relay 15 is turned on, its contact 15.3 closes, which puts the relay on self-supply (that is, the power supply circuit of the relay coil 15 closes), and the indicator light 14 lights up in green. To turn off the relay 15, the mode 13 selector switch is set to the “off” position (figure 2), while the relay 15 power circuit is opened, and the indicator light 14 when the mode switch 13 is turned off, but if a fire is detected in the monitored area, it turns on in red in color by transmitting a high-level logic signal from the electronic control circuit 1 to the second logical input of the indicating and control unit of the automatic fire extinguishing circuit 7, opening the transistor of the second transistor switch 12 The monitoring of the operating mode of the display unit and the control mode for switching on the automatic fire extinguishing circuits 7 is carried out by an electronic control circuit 1 by connecting power supply (for example, 5V voltage ), while in the “off” mode, the second and third logical outputs associated with the corresponding logical inputs of the electronic control circuit 1 receive a logical high level cue; in manual mode, terminal 20 is connected through terminal 17 of mode 13 selector switch to a common wire and a low level logic signal is transmitted to the second logical input, and a high level to the third logical input; in automatic mode, a pin 21 is connected to the common wire through the mode 13 selector switch; therefore, a high-level logic signal is transmitted to the second logical input, and a low-level logic signal to the third logical input; finally, in the event of a malfunction of the mode 13 selector switch at the second and third logic outputs, a low level of the logical signal.

When triggered in the area of one manual addressable fire detector, the operation of the electronic control circuit 1 is carried out as in the case of the previously described simultaneous operation of two addressable fire detectors with the formation of the notification "FIRE ALARM". The operator on duty, if the tumblers corresponding to the zone of the installation of mode 13 of the indication and control units for switching on the automatic fire extinguishing circuits 7 ₁ -7 _n are in manual mode or are turned off, turns on the automatic fire extinguishing circuits manually by pressing the start button 9. The operator on duty can also reset the fire alarm by pressing the “0” key on the keyboard of the data input unit 4, and the next warning address fires the warning message “ATTENTION”, otherwise each subsequent address address The FIRE ALARM warning is triggered by the fire detector.

When the maintenance personnel checks the correspondence of the address of the fire detector stored in the volatile memory and its real location in the system by pressing a button located on the address fire detector or remotely hovering a laser pointer with electronic control circuit 1, a notification about the form is displayed on the screen of the information display unit 5 test impact (“TEST: BUTTON” or “TEST: LASER”), date, time, zone name and detector address, accompanied by a short beep m block buzzer 6. Thus, the staff of fire alarm system may make a route of movement on the project and testing each addressable fire alarm from a single pass check of the event log device is configured correctly address all the fire alarm system. In addition, since the addressable fire detector itself has the possibility of self-diagnosis, when a malfunction is detected, it transmits an information signal to the electronic control circuit 1, which transfers the device to the previously described “FAULT” operating mode.

When the duty operator from the data input unit 4 requests information about the status of the addressable fire detector by setting the loop address and address of the addressable fire detector to be controlled by electronic control circuit 1, information on the state of the monitored parameters: dust content or smoke level (dust content range - from 0 to 100%, and smoke from 0 to 250%). The dust level is also automatically monitored by the electronic control circuit 1. The “DUST” operating mode has a lower priority than the “FIRE ALARM”, “WARNING” and “MALFUNCTION” modes, which is caused by a slow change in dust content. By addressing fire detectors containing a dust compensation algorithm in memory, two levels of dust are distinguished during the diagnostics of their smoke channel: critical, which is a threshold above which accumulated dust is subsequently perceived as smoke, and preliminary, accounting for 76% of the critical. Electronic control circuit 1 dust control is monitored in the background, that is, one addressable fire detector is interrogated periodically (for example, every three seconds), and a two-level dust warning system is implemented, which allows maintenance personnel to timely detect the emerging trend of dust growth and to take proactive actions in a timely manner. When an addressable fire detector with a preliminary or critical dust level is detected by electronic control circuit 1, a dust notification is generated on the screen of the information display unit 5 with an indication of the date, time, address and type of dusty addressable fire detector, which the duty operator must confirm, and in the event log containing information about dust levels. Depending on the detected dust level, the duty operator is given a different reaction time to the event: at a critical level, the increase in dust content is no longer compensated, and therefore, the likelihood of false alarms is increased, so the duty operator must immediately take measures to eliminate dust; at a preliminary dust level, dust compensation continues to work, but the operator on duty should take measures to remove dust from the detector as soon as possible, depending on the rate of dust accumulation in the room. After removing dust, the electronic control circuit 1 receives a signal from the addressing fire detector about the elimination of dust from the addressable fire detector, the corresponding dust removal record is recorded in the event log and, in the absence of other dusty detectors, the device enters the “DUTY” operation mode.

The electronic control circuit 1 also continuously checks the loops 3 for a short circuit, upon detection of which the device is switched to the “FAULT” mode, and in the event log, a record is created about the malfunction in the system and about the loop failure with the indication of the loop number and the time of detection of the short circuit. After the short circuit has been fixed by the operator on duty, an event log is created in the event log indicating the loop recovery with its number and recovery time, and if there are no other malfunctions in the system or they have been fixed, the system is restored and the addressable fire alarm device is put into operation "DUTY".

Configuring or updating the software of the addressable fire alarm device is carried out using a computer through a galvanically isolated interface conversion circuit (for example, TTL-RS485). When configuring in the non-volatile memory of the electronic control circuit 1, information is recorded about the object or part of the object controlled by this addressable fire alarm device, about the protected zones and the addressable fire detectors assigned to them, as well as about the combinations of indication units and control of the automatic circuit switching mode assigned to the zones fire fighting. During the configuration process, the device’s clock is also synchronized with the computer’s clock, and the date and time are set. Configuration or updating is carried out, for example, using the FireSec Administrator software.

Thus, the claimed device address fire alarm is carried out: receiving and transmitting signals through the interface from the addressable fire detectors via a two-wire alarm loop, monitoring the health of the alarm loop, a symbolic indication of received signals, audible alarm conditions, monitoring and activation of control circuits of automatic fire extinguishing systems, smoke removal or remote alarm devices in the event of a fire at a guarded facility, toggle switch selection The mode of indication and control units of the mode of switching on the automatic fire extinguishing circuits, with the help of which the duty operator can individually assign each operating mode of fire extinguishing (automatic, manual or disconnect). Moreover, the mode selection toggle switches, indicator lights and the start button are conveniently located on the front panel of the addressable fire alarm device. Information on the type of event, time and place of occurrence of this event is recorded in the event log stored in non-volatile memory, with the largest number of recorded events being 1000, since recording is performed in a ring buffer (1001 events erase 1 event, etc.)) . All recorded events are displayed on the screen of the information display unit in the form of text notifications and are read by the operator using the keyboard of the information input unit, while all events are controlled by the confirmation (reset) procedure by the operator.

Claims (1)

An addressable fire alarm device containing an electronic control circuit designed for continuous monitoring of the state of the addressable fire alarm system based on microcontrollers with an external non-volatile memory that stores an event log and previously recorded information about the monitored zones assigned to them by addressable fire detectors and operating modes , and electrically connected by information inputs and outputs through the interface unit and loops of the address fire alarm with address fire detectors, data input with output of data input unit, data output with information display unit, pulse width modulation output with input of sound alarm unit, characterized in that indication and control units for automatic fire extinguishing circuits are activated and a start button is electrically connected to the control input of the electronic control circuit and with the manual start input of each of the display units and control the mode of inclusion of automatic fire fighting circuits, which are electrically knitted with their first inputs and outputs of logical signals, second inputs of logical signals, second and third outputs of logical signals with corresponding outputs and inputs of logical signals of an electronic control circuit, and control outputs with automatic fire extinguishing circuits, each of which contains a first transistor switch and a support circuit voltages connected in parallel to the first input-output of logical signals, a second transistor switch connected to the second input of logical signals, toggle switch mode selection, associated with the second and third outputs of logical signals, as well as with a parallel-connected light indicator and relay, connected to the control outputs to turn on the control circuits of automatic fire extinguishing systems by closing the relay contacts, as well as a voltage support circuit connected to the transistor to turn it on and supporting a high level voltage at the first input-output of a logical signal in the event of a loss of the control logic signal from the electronic control circuit, while the source of the first transistor key is connected through the first resistor to the first input-output of the logical signals, the emitter with a common wire, and the collector to the mode selector switch, the transistor of the second transistor key is connected through the second resistor to the second input of the logical signals, the emitter to the common wire, and a collector through a third resistor with a light indicator, and the mode selector switch in the “automatic” mode connects the relay and the light indicator to the output of the first transistor switch, the second output is logical their signals through a current-limiting resistor with power supply, and the third output of logical signals with a common wire, in the "manual" mode, the mode selector switches the relay and light indicator to the manual start input, the second output of logical signals with a common wire, and the third output of logical signals through another current-limiting resistor is with power, and in the "off" mode, the relay and the indicator light are off, and the second and third outputs of the logic signals are connected to the power through the aforementioned current-limiting res sources.

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