RU2205520C1 - Multifunctional domestic annunciator - Google Patents

Abstract

FIELD: communal equipment in residential tenement houses and industrial premises, audio announcing equipment. SUBSTANCE: multifunctional domestic enunciator makes it possible to save electric energy thanks to use of story control over illumination in doorways and over illumination of landing areas in front of elevator, to conduct fanned control over illumination if elevator in doorway is not operational, to carry out control over illumination when illumination is switched on for the time of presence of man on story landing, to execute control over house-breaking alarm, to realize control over automatic switching on of doorway illumination while tenant goes out of apartment. EFFECT: increased electric safety, comfort and reliability, simplified wiring, electric energy saving and prolonged service life of illumination lamps. 5 cl, 1 dwg

Description

 The invention relates to equipment for public utilities residential apartment buildings and industrial premises, and in particular to systems of electrical communications and communications in residential buildings and industrial premises, in particular to intercom systems - audio intercoms.

 Known intercom and lock device containing an intercom and call kit for the front door, which includes a power source, loudspeaker, amplifier, reverse switch, isolation transformer, reverse control unit, bus switching device for apartment numbers on the floor, bus switching device for floor numbers, lock control unit , a generator with a circuit connected to the input consisting of a series-connected capacitor and a reed door sensor, a photosensor, a matching circuit, a timer, an access switch lighting, a scheme for manually dialing an apartment number, a generator for sequentially dialing an apartment number, a control circuit for switching means, intercoms, in which circuits are connected in series with semiconductor diodes and, in parallel, a capacitor with a switch, and the output of the inhibiting signal of the scheme for manually dialing an apartment is connected to the input locking the generator of sequential dialing of the apartment number and, in parallel, to the input of the prohibition of turning off the lock control unit [1]. The disadvantages of this device include the fact that when the photosensor is activated, all the entrance lighting is turned on simultaneously.

 The closest technical solution to the proposed device is a multi-function intercom system "Domovoy KS-01" (prototype) with additional lighting control functions for non-residential premises of the entrance, containing a control panel including a microcontroller with a keyboard, key device, control module for a locking device, a photo sensor, position sensor, interface module with the dispatch and diagnostics system of elevators, sound module, speech synthesizer, line control module, power supply , a locking device, lighting control modules and passive communication means of the subscriber connected via a coordinate line consisting of lines of the apartment number on the floor and lines of the floor number to the control module line control panel [2], [3].

 The disadvantages of this intercom are: when the photosensor is activated, all the lighting of the entrance floors and the lighting of the elevator landing areas are turned on at the same time in the dark; if the tenant forgot to turn on the lights when leaving the apartment, he will have to approach the landing site of the elevator in the dark; when replacing defective lighting lamps with unqualified personnel (residents), there is a chance of electric shock when the lighting is turned on automatically.

 The technical result, the invention is aimed at, is: increasing electrical safety (protecting a person from electric shock in case of insulation faults or accidentally touching current-carrying lighting wires when replacing lamps with unqualified personnel), comfort, reliability; simplified installation; saving energy and increasing the life of lighting lamps, due to the introduction of: separate floor-by-floor lighting control of stairwells and landing areas of the elevator, fan switch-on mode, when the elevator is not working at the entrance; lighting control mode, in which the lighting is turned on for the duration of the person’s presence on the floor; introduction of the alarm function; lighting control with automatic inclusion of entrance lighting when a tenant leaves the apartment; eliminating the possibility of unauthorized connection of residents to the driveway lighting.

 The specified technical result is achieved by the fact that the multifunctional intercom system contains a control panel including a microcontroller connected to a keyboard, a key device, a lock device control module, a line control module, a sound module that includes an integrated speech synthesizer, a code memory module, a dispatch and diagnostic system elevators, photosensor, position sensor (on / off), display module, power supply, lock device, entrance lighting control module, module lighting control of the elevator landing sites, the access lighting control module and connected to the control panel, through the line control module, using a communication coordinate line consisting of n lines of the floor number and m lines of the number of apartments on the floor, where n is the number of floors in the entrance, and m - the number of apartments on the floor, the floor blocks of subscribers, including m intercom subscriber with switches.

 The lighting control modules for the elevator landing sites and the driveway lighting control are made in the form of network power controllers-switches, which additionally perform the functions of residual current circuit breakers (RCD) and network power control devices, with floor-mounted lighting switches connected to them, which include two power controllers, the first of which provides control of the lighting lamps for the landing pad of the elevator, and the second - control of the access lighting of the corresponding floor, and in the first of the control lerov switches mains supply has a function of regulating the output voltage depending on the control signal (luminance).

 Moreover, the output of the dispatch and diagnostics system of the elevators is connected to the first input of the microcontroller of the control panel, the second input of which is connected to the output of the key device, the third input of the microcontroller is connected to the output of the photosensor and, in parallel, to the input of the position sensor (two-position), the fourth input of the microcontroller is connected to the first output a position sensor, the second output of which is connected to the fifth input of the microcontroller, the sixth input of the microcontroller is connected to the output of the code memory module, keyboard matrix terminals The cables are connected by cable to the polling terminals of its state in the microcontroller.

 The first output of the microcontroller is connected to the input of the exterior lighting control module of the entrance, the second output of the microcontroller is connected to the input of the first controller-switch of mains power, the third output of the microcontroller is connected to the input of the second controller-switch of mains power, the outputs of the controllers-switches of mains power are connected to the corresponding parallel connected , the first inputs of the power controllers of the floor lighting switches, the input of the code memory module is connected to the fourth microcontrol output Lera.

 The input of the indicating module is connected to the fifth output of the microcontroller, the sixth output of which is connected to the parallel third inputs of the power controllers of the floor lighting switches, the second inputs of the power controllers of the floor lighting switches paired in parallel are connected to the corresponding floor number lines, the seventh output of the microcontroller is connected to the input of the control module a locking device, the output of which is connected to the input of the locking device.

 The eighth output of the microcontroller is connected to the first input of the line control module, the second input of which is connected to the output of the sound module, the input of the sound module is connected to the ninth output of the microcontroller, the outputs of the line control module through a coordinate line consisting of n lines of the floor number and m lines of apartment numbers on floor, connected to the floor blocks of the subscriber, which includes m intercom subscriber means, and the movable contact of the switch is connected to the first output of the intercom subscriber means, and ny switch contact connected to a second terminal of the subscriber negotiation means, the power supply outputs are connected to respective inputs of the control unit and the power lock assembly.

 A multifunctional intercom system may additionally contain a real-time clock in the control panel, and the output of the real-time clock is connected to the seventh input of the microcontroller.

 A multifunctional intercom system may also additionally contain a volume sensor in the floor lighting switches, and the output of the volume sensor is connected to the fourth inputs of the power controllers connected in parallel.

 A multifunctional intercom system may additionally contain a motion sensor in the floor lighting switches, and the output of the motion sensor is connected to the fourth inputs of the power controllers connected in parallel.

 In addition, a multifunctional intercom system may additionally contain two volume sensors or two motion sensors in floor lighting switches, or a combination of one volume sensor and one motion sensor, depending on the design features of the hall and the corridor, the output of the first volume sensor or motion sensor being connected to the fourth input of the first power controller, and the output of the second volume sensor or motion sensor is connected to the fourth input of the second power controller.

 Also, the multifunctional intercom system may additionally contain m door sensors in the floor block of subscribers according to the number of intercom means of the subscriber on the floor, moreover, the movable contact of the door sensor is connected to the movable contact of the switch and, in parallel, to the first output of the intercom means of the subscriber, the third output of which is connected to the fixed contact door sensor.

 This embodiment of a multifunctional intercom allows solving the task: creating a multifunctional intercom system with increased electrical safety, reliability, comfort, with a burglar alarm function, with an energy saving function due to the application of floor control of access lighting and lighting of elevator landing areas, the introduction of a fan-on lighting mode, when idle elevator in the entrance, the use of lighting control mode, in which the lighting is turned on for the time being Vija man on floor landing; simplified installation; increase the life of lighting lamps; lighting control with automatic inclusion of entrance lighting when a tenant leaves the apartment; excluding the possibility of unauthorized connection of residents to the driveway lighting.

 The functional diagram of the multifunctional intercom is shown in the drawing.

 The intercom system is multifunctional, further the intercom system contains a control panel 1, a power supply 2, a lock device 3, n floor units of subscribers 4, n floor lighting switches 5, an external lighting control module of the entrance 6, a network power supply controller-switch 7 with an output voltage adjustment function depending on the control signal, the network switch controller-switch 8 (an additional function of the controller-switch network 7 and 8 - work as protective shutdown devices and control the mains power) and ordinate communication line consisting of n lines and m floor rooms rooms apartments lines on the floor.

 The control panel 1 contains a microcontroller 9, a key device 10, a photosensor 11, a position sensor 12, a keyboard 13, a code memory module 14, an indication module 15, a control device for the locking device 16, a sound module 17 (a speech synthesizer is integrated into the sound module), a control module line 18. The keyboard 13 is implemented in the form of a matrix containing twelve keys. According to the requirements of the Gosgortekhnadzor, a comprehensive security system has recently become widespread that ensures the safe operation of elevators in the city housing stock - called the dispatch system and diagnostics of elevators.

 The output of the dispatch and diagnostic system is connected to the first input of the microcontroller 9, the second input of which is connected to the output of the key device 10, the third input of the microcontroller 9 is connected to the output of the photosensor 11 and, in parallel, with the input of the position sensor 12, the fourth input of the microcontroller 9 is connected to the first output of the sensor position 12, the second output of which is connected to the fifth input of the microcontroller 9, the sixth input of the microcontroller 9 is connected to the output of the code memory module 14. The keyboard 13 is implemented in the form of a matrix of 3 • 4 keys, of which three exit and four entrances. The keyboard 13 is connected to the corresponding terminals for interrogating the state of the microcontroller 9 with a cable consisting of seven conductors.

 The first output of the microcontroller is connected to the input of the external lighting control module of the entrance 6, the second output of the microcontroller 9 is connected to the input of the first controller-switch of the mains power 7, the third output of the microcontroller 9 is connected to the input of the second controller-switch of the mains power 8, the outputs of the controllers and commutators of the mains power 7 and 8 are connected respectively with the floor lighting switches 5, namely with the first inputs of the power controllers 21 of the lighting of the elevator landing areas parallel and connected with the parallel connected tionary included first inputs 21 regulators power driveway lighting, memory module 14 codes input connected to the fourth output of the microcontroller 9.

 Indication module 15 is connected to the fifth output of the microcontroller 9, the sixth output of the latter is connected to the third inputs of the power regulators 21 of the floor lighting switches 5 connected in parallel, the second inputs of the power regulators of the 21 floor lighting switches 5 connected in parallel to the corresponding floor number lines, the seventh output of the microcontroller 9 connected to the input of the control module of the locking device 16, the output of which is connected to the input of the locking device 3.

 The eighth output of the microcontroller 9 is connected to the first input of the control module line 18, the second input of which is connected to the output of the sound module 17, the input of the sound module 17 is connected to the ninth output of the microcontroller 9, the outputs of the control module line 18, through a coordinate line consisting of n number lines floors and m lines of the number of apartments per floor, connected to floor blocks of subscribers 4.

 The composition of the subscriber's floor unit 4 includes m intercoms of subscriber 20 with the switches S1 connected to them, and the movable contact of the switches S1 is connected to the first output of the intercom subscriber 20, and the fixed contact is connected to the second output of the intercom subscriber 20. Up to three intercoms can be connected in parallel funds 20 in one apartment, while they are considered as one intercom subscriber 20. The outputs of the power supply 2 are connected to the corresponding power inputs of the control panel 1 and the lock Crib 3.

 The power supply for the outdoor lighting control module of entrance 6, the controllers and switches of the mains power supply 7 and 8 is provided from the AC mains. The power of the intercom subscriber 20 included in the floor units of the subscribers 4 is carried out according to a phantom circuit (a two-wire line connected to the intercom subscriber 20 is simultaneously powered by the intercom subscriber and an information signal is transmitted). The composition of the floor lighting switch 5 includes two power controllers 21, the first power control 21 smoothly turns on and off the lighting of the elevator landing area, including during daylight hours, where necessary, and the second smoothly turns on and off the entrance lighting of the corresponding floor in Night time.

 The intercom further comprises a real-time clock 19 in the control panel 1, the output of the real-time clock 19 being connected to the seventh input of the microcontroller 9.

 The intercom also further comprises a volume sensor 22 in the floor lighting switches 5, the output of the volume sensor 22 being connected to the fourth inputs of the power controllers 21 connected in parallel.

 The intercom further comprises a motion sensor 22 in the floor lighting switches 5, the output of the motion sensor 22 being connected to the fourth inputs of the power controllers 21 connected in parallel.

 In addition, the intercom system further comprises two volume sensors 22 or two motion sensors 22 or a combination of one volume sensor 22 and one motion sensor 22 in the floor lighting switches 5, depending on the design features of the hall and the corridor, the output of the first volume sensor 22 or sensor motion 22 is connected to the fourth input of the first power controller 21, and the output of the second volume sensor 22 or motion sensor 22 is connected to the fourth input of the second power controller 21 of the floor lighting switch 5.

 Also, the multifunctional intercom system additionally contains 4 m door sensors S2 in the floor block of subscribers, according to the number of subscriber means on the floor, the movable contact of the door sensor S2 connected to the movable contact of the switch S1 and, in parallel, with the first output of the subscriber means 20, the third output of which connected to the fixed contact of the door sensor S2.

 The microcontroller 9, which is part of the control panel 1, is based on the AVR RISC microcontroller AT90S8515, the memory module 14 is made on the basis of the AT25C160 chip from ATMEL Inc., the power controller 21 and the exterior lighting control module for the entrance 6 are made on the basis of the KR1182PM1 chip, the controllers network power switches are made on the KR1182CA1 microcircuit manufactured by STC SIT in Bryansk. The real-time clock is made on a DS 1307 chip from Dallas Inc. The programming of the microcontroller 9 is carried out during the assembly of the intercom. The keys are semiconductor switches type DS 1990A from Dallas Inc. or similar keys based on K1233KT1 microcircuits manufactured by STC SIT, Bryansk. The keys can be registered by the user (authorized tenants) using the master key or the master code entered from the keyboard 13 of the control panel 1. Information about the registered keys is stored in the code memory module 14 in cells grouped by apartment numbers and can be quickly changed in case of loss or failure of keys.

 A feature of the intercom system is that the same floor number line is used to connect the floor block of subscribers 4 and control the floor lighting switch 5, which reduced the number of control conductors and, using one additional conductor, realize the functions of separate floor and fan control of the lighting of the elevator landing sites and entrance lighting when the elevator is not working. The controllers and switches of the mains power supply 7 and 8 perform additional functions: protection against increased network voltage and overcurrent; residual current circuit breakers. Intrusion alarm function introduced.

 The intercom state is the 128-byte non-volatile memory area allocated in code memory module 14, which contains data on the activated modes of operation and configuration of the intercom.

 The intercom works as follows.

 Standby mode. The mode is activated when there is no tenant or guest in the active zone of the position sensor 12 for two minutes. The transition time to standby mode is stored in the word state of the intercom and can be changed by the user. The active zone of the position sensor 12 is switched by a signal from the output of the photosensor 11 to the input of the position sensor 12 and, in parallel, to the third input of the microcontroller 9. In daylight, the active zone of the position sensor 12 is 0.8-1.2 m, and in the dark time - 2.5-3 m.

 The microcontroller 9 controls the presence of a signal at the second output of the position sensor 12, cyclically polling the state of its fifth input. After two minutes, by interruption from the first built-in timer of microcontroller 9, the standby routine is started, the microcontroller 9 cyclically transmits the code of the next connected subscriber (apartment) to the line control module, and then polls the state of its eighth output (waiting for the tenant to switch on switch S1 before leaving the apartment to turn on the lighting or the door sensor S2 when the tenant leaves the apartment, in this case the eighth output of the microcontroller 9 is programmed for input mode). The polling cycles are repeated until the last apartment number in the stairwell is reached and begin again, from the first apartment number in the stairwell. Next, the intercom goes to work in the first or second modes, depending on the state of the signal at the output of the photosensor 11.

 First mode. In daylight, the signal from the output of the photosensor 11 switches the position sensor 12 to the first mode of operation - in the near zone. The active zone can be changed at the request of users. When the tenant approaches this distance (the presence of a person in the active zone), the position sensor 12 provides a signal to the fourth input of the microcontroller 9, which, determining the presence of the signal, includes a subroutine for recognizing the code of the pressed key and controlling the operation of the key device 10 by cyclic polling of the signal at the second input of the microcontroller 9.

 When a key is detected in the key device 10, the code is read, compared with the value stored in the code memory module 14 and, if the code matches, the lock device 3 is opened by the signal generated at the seventh output of the microcontroller 9 through the control device of the lock device 16. If there is no key, the tenant or the guest types on the keyboard 13 the apartment number, which is then checked by the microcontroller 9 for absence in the forbidden list, if the given subscriber is disconnected - an error tone signal or an audio message with speech integrator of the sound module 17, depending on the set mode, then the intercom switches to the previous state of cyclic polling of the keyboard 13 and key recognition.

 If the number that goes out of the registered range of apartments is incorrectly set by a signal from the fifth output of the microcontroller 9 to the display module 15, the red indicator turns on and at the same time a signal from the ninth output of the microcontroller 9 is sent to the input of the sound module 17 as a tone signal or a command to issue a message by the speech synthesizer of the sound module 17 , depending on the set mode.

 If the apartment number is not in the forbidden list, the microcontroller 9 from the eighth output transmits the code of the connected apartment to the line control module 18, connects the corresponding intercom means of the subscriber of the 20 floor block of subscribers 5 to the control panel 1 for negotiations. The call status is limited in time to two minutes. Premature termination of the call mode occurs when the front door is opened. The call time code is stored in the word state of the intercom in the code memory module 14 and can be changed by the user.

 After negotiations, the tenant can let the guest in by pressing switch S1 of his subscriber's talk means 20, the response signal through the line control module 18 is sent to the eighth output of the microcontroller 9 (in the negotiation mode, the eighth output of the microcontroller is programmed into the input mode, works as an input) and, by the signal from the seventh the output of the microcontroller 9, the input to the control module of the locking device 16, the locking device 3 opens.

 When the lighting control mode of the elevator landing sites is activated in the word state of the intercom during daylight hours while opening the door (the elevator is in working condition, as evidenced by the presence of the enable signal at the first input of the microcontroller 9 connected to the output of the dispatch and diagnostics system of the elevators), the signal from the second the output of the microcontroller 9 includes a controller switch network power 7, and the output voltage of the controller switch network power 7 depends on the control signal Ia generated by the microcontroller 9 at the second output, depending on the light photodetector 11.

 In addition, the controllers and switches of the mains power supply 7 and 8 protect their switching elements from overcurrent, monitor leakage currents through the neutral and phase wires, which eliminates the possibility of electric shock to a person in case of insulation violation or human contact with live light wires, and also eliminates the possibility of unauthorized connection of tenants to the access lighting. The voltage at the output of the controller-switches 7 and 8 is limited in amplitude to the minimum value acceptable according to GOST 13109-97. Mains power is supplied to the parallel connected first inputs of the power controllers of 21 floor lighting switches 5, which provide lighting for the elevator landing sites.

 The signal on the line of the floor number in parallel with the floor block of subscribers 4 enters the second pairwise parallel connected inputs of the respective power controllers 21 of the floor lighting switch 5, and since the power supply by the controller-switch of the mains power 7 is supplied only to the first power controllers 21 of the lighting of the elevator landing pad, it enables corresponding power controller 21. Microcontroller 9 with a signal from the sixth output connected to parallel connected third inputs of power controllers 21 floor lighting switches 5, smoothly turns on, using the prepared first power controller 21, the lighting of the elevator landing area of the corresponding floor.

 Further, according to a similar procedure, the lighting of the landing platform of the elevator on the first floor is switched on smoothly. Lighting turns on for a time determined by the built-in timer of the microcontroller 9, depending on the floor number. Thus, at the same time, the illumination of the first, landing, floor and destination floor, where or from where the tenant moves, remains on. The lighting on time is calculated by the microcontroller from the sum of the approach time to the elevator and the elevator waiting time - three minutes, plus the elevator travel time equal to 30 • n, where n is the destination floor number, in seconds, plus the time required to enter the apartment is three minutes . After a specified time, the included first power controller 21 of the floor switch 5 is turned off by a repeated signal from the sixth output of the microcontroller 9. The intercom goes into standby mode.

 The second mode. At night, there is no signal from the output of the photosensor 11 and the position sensor 12 switches to work in the far zone (second mode of the position sensor). The active zone of the second mode is established at the stage of commissioning. If a tenant or a passerby enters the active zone of the position sensor 12, the signal from its second output is fed to the fifth input of the microcontroller 9, which, with the signal from the first output, smoothly turns on the external lighting of the entrance for two minutes through the external lighting control module of entrance 6 (the time for which the lighting is turned on, it can be changed by the user within one to five minutes), the photosensor 11 is turned on and switches the position sensor 12 to the first mode of operation - in the near zone. Further, the work takes place in accordance with the first mode. The difference is as follows.

 Firstly, in the dark, in addition to lighting the elevator landing sites, according to a similar procedure, the access lighting on the selected and first floors is turned on. The permission to turn on the second power controller 21 of the floor lighting switch 5 transfers the microcontroller 9 from the third output to the input of the network power controller-switch 8, which connects the mains power to the first inputs of the second power controllers 21 of the entrance lighting connected in parallel. After time, the lighting is turned off by the repeated signal of the microcontroller 9 from the sixth output. Secondly, when the front door is opened, when the tenant leaves the entrance, the microcontroller 9 receives a signal from the first exit, using the external lighting control module of the entrance 6, turns on the external lighting of the entrance for two minutes. Next, the intercom goes into standby mode.

 When the tenant leaves the apartment, he presses the switch S1, the microcontroller 9 determines, using the periodic polling of the state of the switches S1 of the communication means of the subscriber 20, the closed switch S1 and gives a short sound signal to the communication means of the subscriber 20, confirming the inclusion of lighting on the first floor and floor, where a closed switch S1 has been detected.

 In case the tenant needs to move up the staircase, he continues to hold switch S1 until the second tone signal, after which the microcontroller 9 signals from its second and third outputs to the inputs of the controllers-switches of the mains supply, supplies network power to everything in the dark, power regulators of 21 floor lighting switches 5, sets, alternately, through the control module of line 18, the enable signal on the floor line, and with the sixth output signal, with a delay of 0.1 s, turns on the lighting of entrance for a period of five to fifteen minutes (the time for which the access lighting is turned on is stored in the word state of the intercom and can be changed quickly by the user). After a specified time, the microcontroller 9 by repeated signals on the floor lines and a signal from the sixth output turns off all lighting. When a tenant leaves the apartment, if he forgot to turn on the entrance lighting previously, a similar switching command is given after opening the door sensor S2 (the door is open), the entrance lighting of the tenant’s floor and the first floor is switched on smoothly, and when the elevator is not working, the fan control mode is activated ( third mode).

 Night standby mode. From the keyboard 13 of the control panel 1 of the intercom, the user can set the night (standby) mode of operation of the lighting (at night the lighting of the elevator landing sites is constantly on), with any pre-set brightness of the lamps. The microcontroller 9 sets the corresponding flag and code for the brightness of the glow in the word state of the intercom, after which the mode is turned on automatically when the photosensor 11 is activated in the dark. Disabling the night mode is possible by the flag of the real-time clock, for example, after midnight. The off flag and time are entered by the user from the keyboard 13 of the control panel 1.

 The third mode (fan control mode). The elevator is not working or the staircase is disabled. The signal from the dispatch system and diagnostics of elevators at the first input of the microcontroller 9 is missing. In the absence of communication with the dispatch system and diagnostics of elevators, the third mode can be activated by the user from the keyboard 13 of the control panel 1, after which the microcontroller 9 sets the corresponding flag in the word state of the intercom. The microcontroller 9 operates under the program of fan-controlled lighting.

 When a tenant or a guest enters the entrance, the microcontroller 9 gives signals from the second and third outputs to turn on the power supply controllers 7 and 8, allowing the inclusion of floor lighting switches 5. The destination floor is determined by the microcontroller 9 by the key code, if the tenant has entered, or by the number dialed apartment if guest is included. Next, the microcontroller 9, starting from the first floor, sequentially, with a delay of thirty seconds, by a signal from the sixth output and connecting the corresponding line of the floor number, turns on the lighting of the floors, up to the destination floor. Lighting is turned off in the same order, starting from the first floor, in increments of one plus n minutes, where n is the number of the current floor, up to the destination floor.

 When the tenant leaves the apartment, the lighting is controlled by the switch S1 or the door sensor S2, the intercom means 20, and occurs in the reverse order. Additionally, when opening the front door, when the tenant leaves the entrance, the microcontroller 9 receives a signal from the first exit, using the external lighting control module of the entrance 6, turns on the external lighting of the entrance for two minutes. Disabling the third mode of operation is possible from the keyboard 13 of the control panel 1 or automatically upon receipt of a control signal from the dispatching system and diagnostics of elevators to the first input of the microcontroller 9.

 Security mode. In the absence of tenants in the apartment, the door sensor S2 of the intercom subscriber 20 is used to protect the apartment. To do this, the tenant, after exiting the entrance, dials the security mode code on the keypad 13 of the control panel 1 of the intercom and confirms the mode using the key and enters an individual security code (arbitrary). In case of unauthorized opening of the apartment’s door, the microcontroller 9 fixes the unauthorized access time from the output of the real-time clock 19, writes the value to the code memory module 14 and gives an alarm signal - a siren, to the subscriber’s intercom 20, control panel 1 and gives a voice message - “it worked burglar alarm in the apartment, using the speech synthesizer of the sound module 17, to the intercom means of the on-call subscriber 20.

 When the tenant returns home, he inserts the key into the key device 10, the microcontroller 9 recognizes the key and issues, by turning on the corresponding indicator on the display module 15 and the message, through the speech synthesizer of the sound module 17, information that the apartment is under guard. The tenant dials the security mode code, enters 1 individual security code from the keypad 13 of the control panel and enters the entrance. The microcontroller 9 fixes the time of disarming the apartment from the output of the real-time clock 19 and writes the value to the memory module of codes 14. Information about the time of disarming and arming is stored for two days.

 Using real-time clocks 19. To ensure a more comfortable operation of the intercom during peak hours, when several tenants can pass simultaneously, real-time clocks 19 turn off the floor-mounted and fan-controlled lighting modes for a time set by users and stored in code memory module 14 . The microcontroller 9 sequentially turns on all floor lighting switches of the entrance 5, depending on the state of the photosensor 11, for a period of one plus n minutes, with the elevator running, and four plus n minutes, with the elevator off, where n is the number of floors in the entrance.

 In the event of a failure or absence of the photosensor 11, the lighting is controlled using the calendar mode, the transition to the mode is carried out automatically if there is no signal from the photosensor 11. Calculation of the on and off time of the entrance lighting is carried out according to the solar calendar with the calculation from the base date June 22 - day summer equinox. The calendar current date is entered into the memory module codes 14 and the real-time clock 19 at the time of commissioning by maintenance personnel.

 In order to inform the after-sales service and better support of the intercom, a fix was introduced using real-time clock 19 with storage of recorded data in the memory module of codes 14, information about the service life, MTBF, failure time and downtime.

 When 5 volume and / or motion sensors 22 are installed in the floor lighting switches, the lighting is switched on at the initial stage of the tenant or guest entering the entrance or exit of their apartment, under the control of microcontroller 9.

 Turning off the lighting is carried out by sensors of volume and / or movement 22. When moving a tenant along the staircase, turning on and off the lighting of intermediate floors is carried out by sensors of volume and / or movement 22 of the corresponding floor lighting switch 5.

Sources of information
1. Certificate for a utility model of the Russian Federation 20119. Intercom and lock device on the application 2001106095, IPC 7 E 05 В 47/00, 2001

 2. Technical passport for the Domovoy KS-01 on-door speakerphone, manufactured by Electrongarantservis LLC, 390028 Ryazan, ul. Rural builders, d.1B, of. 67, specifications SARG 6652-001-57402356-02 TU, 2002

 3. Application for a patent of the Russian Federation 2001122188, IPC 7 H 04 M 11/02, 2001

Claims (6)

 1. The multifunctional intercom system comprising a control panel including a microcontroller connected to a keyboard, a key device, a lock device control module, a line control module, a sound module, which includes an integrated speech synthesizer, module, code memory, dispatch and diagnostic system for elevators, a photosensor , position sensor, indication module, power supply, locking device, control module for exterior lighting of the entrance, control module for lighting the elevator landing areas, control module I have access lighting and are connected to the control panel, through the line control module, using the coordinate line consisting of n lines of the floor number and m lines of the number of apartments on the floor, subscriber floor units, including m subscriber means with switches, characterized in that the module the lighting control of the elevator landing sites and the access lighting control module are made in the form of network controllers-switches, which additionally perform the functions of protective shutdown and control devices power supply, with floor lighting switches connected to them, and the output of the dispatching and diagnostics system of the elevators is connected to the first input of the microcontroller of the control panel, the second input of which is connected to the output of the key device, the third input of the microcontroller is connected to the output of the photosensor and in parallel with the input of the position sensor, fourth the input of the microcontroller is connected to the first output of the position sensor, the second output of the last is connected to the fifth input of the microcontroller, the sixth input of which is connected to the output ohm of the code memory module, the terminals of the keyboard matrix are connected by a cable to the polling terminals of its state in the microcontroller, the first output of the microcontroller is connected to the input of the exterior lighting control module of the entrance, the second output of the microcontroller is connected to the input of the first network switch-controller, the third output of the microcontroller is connected to the input of the second controller switch network power, the outputs of the controller switch network power are connected to the corresponding parallel connected first inputs of the reg power monitors of the floor lighting switches, the input of the code memory module is connected to the fourth output of the microcontroller, the indication module is connected to the fifth output of the microcontroller, the sixth output of which is connected to the third inputs of the power switches of the floor lighting switches connected in parallel, the second inputs of the power regulators of the floor lighting switches connected in parallel to the corresponding floor number lines, the seventh output of the microcontroller is connected to the input of the lock control module the output device of which is connected to the input of the lock device, the eighth output of the microcontroller is connected to the first input of the line control module, the second input of which is connected to the output of the sound module, the input of which is connected to the ninth output of the microcontroller, the outputs of the line control module by means of a coordinate line consisting of n lines of floor number and m lines of apartment numbers on the floor are connected to the subscriber's floor blocks, which include m subscriber's communication facilities, and mobile Here, contacts of the switch and the door sensor coupled to a first terminal negotiating subscriber means. and the fixed contacts of the switch and the door sensor are connected respectively to the second and third terminals of the subscriber's talking means, the outputs of the power supply are connected to the corresponding power inputs of the control panel and the lock device.  2. The multifunctional intercom according to claim 1, characterized in that a real-time clock is entered into the control panel, the output of the real-time clock being connected to the seventh input of the microcontroller.  3. Multifunctional intercom system according to one of paragraphs. 1 and 2, characterized in that a volume sensor is introduced into the floor lighting switches, the output of the volume sensor being connected to the fourth inputs of the power controllers connected in parallel.  4. Multifunctional intercom system according to one of paragraphs. 1 and 2, characterized in that a motion sensor is introduced into the floor lighting switches, the output of the motion sensor being connected to the fourth inputs of the power controllers connected in parallel.  5. Multifunctional intercom system according to one of paragraphs. 1 and 2, characterized in that two volume sensors or two motion sensors or a combination of one volume sensor and one motion sensor are introduced into the floor lighting switches, depending on the design features of the hall and the corridor, the output of the first volume sensor or motion sensor being connected to the fourth input of the first power controller, and the output of the second volume sensor or motion sensor is connected to the fourth input of the second power controller.  6. The intercom is multifunctional according to one of paragraphs. 1 and 5, characterized in that m door sensors are additionally introduced into the floor block of subscribers according to the number of intercoms of the subscriber on the floor, moreover, the movable contact of the door sensor is connected to the movable contact of the switch and in parallel with the first output of the subscriber's communication means, the third output of which is connected to fixed contact of the door sensor.