RU2281614C1 - Integrated multi-functional controlling and monitoring system - Google Patents

Abstract

FIELD: engineering of automated systems for controlling and monitoring.

SUBSTANCE: invention uses door intercommunication system as a core of integrated multi-functional controlling and monitoring system, invention includes transformation of it to system of collective safety, including the purpose of minimization of consequences of emergency situations, system control pollution of air in apartment (through determining concentration of light aero-ions and maintaining their amount optimally, control over air moisture level and maintaining it optimally, especially in winter period); conference communication function, including video conference communication capability, controlling of possible gas leaks in the entrance, usage of system as both video door intercommunication system and video phone.

EFFECT: increased reliability, comfort of operation, serviceability, resistance to interference, expanded functional capabilities, increased efficiency of usage of energy resources.

9 cl, 2 dwg

Description

The invention relates to computer technology, namely to automated control and management systems with elements of computer technology, and can be used to carry out control, registration and management functions, including restriction and access control functions, in the field of housing and communal services remote monitoring and control, rapid response to emergency situations in order to minimize the consequences.

Known multi-apartment monitoring and control system "McS" [1], divided into autonomous apartment monitoring and control systems that provide a minimum set of capabilities (control water leakage, fire and penetration). It contains the McS system control room, which contains the main unit, power supply, dialer and remote control, including the display unit and keyboard, and the apartment systems connected to it, which include: McS system remote control, control cabinet, port and connected an alarm button, a temperature fire sensor, a water leakage sensor, a water supply control device, a gas sensor and a gas supply control device, a door opening sensor, a port that is connected via a bus to a central console. The system also manages the general premises of the building - halls, stairs, garage, boiler room, etc. There are three control buses in the system. The first bus connects the central control room to the apartment systems, the second bus connects the central control panel to the lighting control system for common areas - stairwells and halls, consisting of a port and N storey lighting control systems connected to it by a motion sensor, where N is the number of staircases buildings, the third bus connects the central console to the garage port and the boiler room, and a CO sensor and a lighting control device for the motion sensor are connected to the garage port. By means of a modem, the system is connected to the central dispatch control panel - fire, security or housing and communal systems, and also sends alarming SMS messages indicating the reason for the call.

The disadvantages of this system are: low reliability due to the use of a centralized control scheme - a data transfer model using a master-slave configuration, an accident of a central control and control device destroys the entire system; low functionality due to the lack of a control function for the ecology of the home; low security; low vandal proof and increased complexity of installation of the lighting control system through the use of a large number of motion sensors; a homogeneous communication system (private-company), which belongs to the class of closed systems using devices of the same manufacturer as applied to control systems based on local networks, private solutions are the intellectual property of individual companies, the use of such technologies involves obtaining a license for the right to use; low electrical safety of the automated lighting control segment due to the absence of the function of the residual current device (RCD).

Known multifunctional control system [2], comprising a central control and management device, including a microprocessor, a read-only memory unit, a random access memory unit, a timer and an interface unit with a common bus, a common bus, N input / output units, fire detectors, gas sensors, sensors of environmental pollution factors, acoustic and optical warning devices, temperature sensors, water presence sensors, security sensors, water cut-off device, Achi gas, the device on and off lights and electronics, heating instrument control device, a ventilation and air conditioning control, multi-channel device on the telephone line, the device auto redial notification.

The disadvantages of this system are: low reliability due to the use of a centralized control circuit with a common bus — a data transmission model using a master-slave configuration, an accident of a central control and control device or a short circuit in a common bus will lead to the failure of the entire system; a single break in the network cable will lead to loss of operability of part of the system; low security.

Known multi-function intercom [3], made according to the coordinate-matrix scheme, with additional lighting control functions for non-residential premises of the entrance, containing a control panel including a microcontroller with a keyboard, key device, lock control module, photo sensor, position sensor, interface module with a dispatch and diagnostics system for elevators, a sound module with an integrated speech synthesizer, a line control module, a real-time clock, a pi Ania, a locking device, lighting control modules: storey light switches, consisting of two power switches, motion sensors, controllers, switches, power supply function tripping devices (RCD); subscriber floor units, including the subscriber's communication facilities, connected via the coordinate line consisting of the number of apartments per floor and the floor number lines to the control unit line control module, n door sensors used as security sensors when the intercom functions as a doorphone burglar alarm.

The disadvantages of this system are: low functionality; the probability of unauthorized, accidental opening of the door in the dark when the tenant presses the switch to turn on the light at the moment when the code for this apartment is dialed from the control panel; lack of control over the state of the security sensor during negotiations between the tenant and the guest; the complexity of installation and the lack of security control at the time of negotiations due to the use of the coordinate-matrix scheme; a data transmission model using the master-slave configuration, an accident on the intercom control panel will lead to the failure of the entire system; there is no possibility of remote diagnostics of the system and remote reconfiguration.

The closest technical solution to the proposed integrated multifunctional monitoring and control system is a multifunctional intercom [4] (prototype), made according to a linear single-channel address scheme using a two-wire line, with additional functions: control lighting of non-residential premises of the entrance; fire alarm; emergency phone; remote access - with remote diagnostics and reconfiguration. A multifunctional intercom system contains a control panel, a power supply, a lock device, a lighting control module, an interface module with a dispatch and diagnostics system for elevators, a telephone line interface module (modem), an electronic registrar (video recorder), a concierge desk and subscriber units, according to the number of apartments, which include: module matching with the line; microcontroller; keyboard; sound module; door sensor; a module for monitoring the line of security sensors with N security sensors connected in series; N fire alarm sensors connected in series; a gas sensor interface module and a CH4 gas sensor.

The technical result to which the invention is directed is to increase reliability, comfort, maintainability, increase noise immunity, expand functionality: use the intercom as a core of an integrated multifunctional control and management system and transform it into a collective security system, including to minimize the consequences of emergency situations; control of air pollution in the apartment (determination of the concentration of light air ions and maintaining their number in the optimal size, control of air humidity and maintaining the optimal value, especially in winter); conferencing, including video conferencing; control of possible gas leaks in the entrance; use of the system as a video intercom and video phone; energy saving.

Technical means should satisfy the needs of business processes as fully as possible, provided that environmental safety and comfort are increased, operating and maintenance costs are reduced, and energy resources are saved. Budget constraints and problems in improving the ecology of housing increase energy management requirements. The growing demands for comfort and service, the need for remote monitoring and rapid response, minimizing the consequences of accidents lead to the need to improve controls.

In traditional solutions, control stations are implemented on the basis of MS Windows business logic and are implemented on a personal computer using WEB technologies. For control and current work, an Internet browser is required, which is installed on the workplace. The kernel of the system that performs the functions of alarm routing is implemented on the server. The structure operates on a client-server system.

The specified technical result is achieved by the fact that the integrated multifunctional monitoring and control system, then the system, is constructed as a distributed segmented network architecture with a quasi-ring topology, the standard network topology of the “common bus” type is used, but with the possibility of switching input and output and laid in the shape of a ring . In contrast to the client-server architecture in the proposed system, server functions can be delegated to individual modules. The system uses smart sensor technology. Intelligent sensors are characterized by digital identifiers and electronic specifications. In permanent memory (ROM) are stored: the identifier of the manufacturer; model code; serial number; Date of issue; type code - data is set by the manufacturer during the initial programming of the microcontroller and cannot be changed during operation. In the reprogrammable non-volatile memory of the EEPROM, the following data are stored, which are set when configuring the system: calibration data (sensitivity); units; reference frequency; calibration date; sensor location code; filter cut-off frequency of the lower (LP) and upper (HP) frequencies, if necessary; service history; other information; notes. These data can change during reconfiguration of the sensor or in case of its reuse, for example, in the case of installation in another system after repair or dismantling. The system is based on structured cable networks, the exchange of information is supported by standard communication protocols of industrial networks. The system is divided into segments that have their own level of responsibility, consists of three levels: the level of sensors-activators (intelligent microcontroller). Intelligent activator sensors have built-in electronic digital identifiers and specifications; level of field controllers (technological data are processed in real time using controllers); the level of the building's controllers, which is part of the automated control system of the intelligent building complex.

The system contains a control panel (intercom) which includes: built-in pulsed photoconverter and motion sensor; Power Supply; locking device; mains controller-switch with the function of a residual current device; module for interfacing with the dispatch and diagnostics system of elevators; modem; a video recorder, which includes a video camera with night vision mode, an electronic recorder, an infrared spotlight and a motion sensor; concierge desk and subscriber modules, according to the number of apartments and additional ones installed in office premises. The structure of subscriber modules includes: keyboard and display module; sound module; door sensor; control module, N security sensors; N fire alarm sensors and CH4 gas sensor. The following are additionally introduced into the system: switch module; door sensor; interface module, which performs the function of a gateway together with the control panel; dimmers (dimmer - dimmer control); floor, performing the function of floor lighting switches; lighting devices, according to the number of floors and lighting lines, grouped in two lines for lighting the landing sites of the elevator and lighting the entrance hall; a second network power controller-switch with the function of a residual current device; the first and second dimmer switch and the first and second lighting device protected, respectively, for controlling outdoor and vestibule lighting. The first segment of the LAN1 data network is connected to an automated building management system (it is assumed to exist, but is not considered here), an interface module, and a video recorder. A choke is additionally introduced into the power supply unit and a third output is formed for organizing phantom power for the second segment of the LAN2 information computer network. The subscriber unit includes: the subscriber module and the subscriber’s lock device. The following modules are additionally introduced into the subscriber module: router; humidity sensor module; activator module; subscriber’s key device and network power supply. In the subscriber module, a third segment of the LAN3 information computer network is organized.

In the system’s functional diagram, the door sensor output is connected to the first input of the control panel, the second input of which is connected to the first output of the power supply, the second output of which is connected to the input of the lock device. The first bus of the control panel is connected to the interface module, the output of which is connected to the first segment of the computer network LAN1, which forms the level of the building's controllers. The second bus of the control panel is connected to the input of the switch module, which performs two functions: a network adapter (interface module) and a switch, the first output of which is connected to the input of the second segment of the computer network LAN2, which forms the level of field controllers, the output of which is connected to the second output of the switch module . The following are connected in parallel to the second segment of the LAN2 computer network: the third output of the power supply; locking device; subscriber units, by the number of apartments and additionally installed in the office premises of the attic and basement; floor dimmers; module for interfacing with the dispatch and diagnostics system of elevators; the first and second controllers-switches network power; first and second switch dimmers; modem and concierge desk. The output of the subscriber module is connected to the input of the subscriber’s lock device. The outputs of the dimmers-switches are connected respectively to the first and second lighting protected devices, and the output of the first controller-switch of the mains power is connected to parallel power inputs of the first lighting lighting devices of the elevator landing sites. The output of the second controller-switch of the mains power is connected to the parallel connected power inputs of the second lighting devices of the hallways of the entrance. The control input of the first and second lighting devices is connected to the corresponding output of the floor dimmer, the concierge desk is connected to the second segment of the LAN2 computer network, to which the subscriber units are connected, consisting of the subscriber module and the subscriber’s lock device, and the output of the subscriber’s module is connected to the input of the lock device subscriber. The modem output is connected to a telephone line. In the subscriber module, the output of the router is connected to the third segment of the LAN3 data processing network, which forms the level of sensor-activators made according to the topology of the common bus, to which are connected: keyboard and display module; sound module; control module; gas sensor; humidity sensor module; activator module; subscriber’s key device and network power supply. The door sensor output is connected to the input of the keyboard and display module. The alarm cable, with N security sensors connected to it, is connected to the first output of the control module. The fire protection loop, with M fire alarm sensors connected to it, is connected to the second output of the control module. The output of the key device of the subscriber is connected to the input of the locking device of the subscriber. All modules and devices of the system included in the segments of the information computer network have a built-in microcontroller network adapter, which is powered by a phantom circuit - at the same time, an information signal and a supply voltage are transmitted via a network cable.

Additionally, an integrated multifunctional monitoring and control system in the structure of the power supply unit may include a power phase selection module that performs operational control and switching of the power phase depending on the current voltage on the supply feeders.

In addition, the integrated multifunctional monitoring and control system may include a CH4 gas sensor, the gas sensor output being connected to the second segment of the LAN2 information computer network. A gas sensor is installed on the top floor.

Also, a system switch can be added to the integrated multifunctional monitoring and control system, and the output of the system switch is connected to the second segment of the computer network LAN2. The system switch provides remote control of the lighting from the entrance in case of damage to the control panel.

An integrated multifunctional monitoring and control system may contain, in addition, a subscriber module, into which a telephone line-intercom switch is additionally introduced. The output of the sound module is connected to the first input of the telephone line-intercom switch, to the second input of which the subscriber's telephone is connected. The third input of the telephone line-intercom switch is connected to the subscriber's telephone line. Such a performance of the system will make it possible to additionally use the telephone as an intercom for the intercom, the function of which is performed by the system.

An integrated multifunctional monitoring and control system may contain in the subscriber module a module of water leakage sensors, with the help of which the system monitors the condition of water pipes and leaks in the heating system. The water leakage sensor module is connected to the third segment of the LAN3 computer network.

The integrated multifunctional monitoring and control system, in addition, in the subscriber module may additionally contain a network monitoring sensor, which is connected to the third segment of the LAN3 data processing network.

The integrated multifunctional monitoring and control system in the subscriber module additionally contains a sensor of light air ions. The sensor of light aeroions is connected to the third segment of the LAN3 data processing network.

The integrated multifunctional monitoring and control system in the subscriber module may also contain a video input-output module, and an additional video camera is also introduced into the DVR. In this case, the video input-output module is connected to the second segment of the computer network LAN2. This makes it possible to organize video conferencing and allows you to enter an additional function of the system as a video intercom and video phone.

An integrated multifunctional monitoring and control system may include a pulsed photoconverter, which is made in the form of a separate module of a pulsed photoconverter, and the module of the pulsed photoconverter is connected to the first segment of the computer network LAN1.

This implementation of the integrated multifunctional monitoring and control system allows us to solve the task of creating a system: increased reliability, comfort and maintainability, increased noise immunity, enhanced functionality: using the system as a video intercom and video phone, and resulting in an integrated element of a collective security system designed, including number, and for: minimizing the consequences of emergencies; monitoring air pollution in the apartment (determining the concentration of light air ions and maintaining their number in the optimal size), monitoring air humidity and maintaining the optimal value, especially in winter; conferencing, including video conferencing; control of possible gas leaks in the entrance; energy saving. The system is an element, an integrated part, of an integrated automated control system within the framework of the concept of an intelligent building.

The functional diagram of the integrated multifunctional control and monitoring system is shown in the drawings.

The integrated multifunctional monitoring and control system, further the system, (Fig. 1) comprises a control panel 1, a power supply 2, a locking device 3, a network power controller-switch 10, a module for interfacing with a dispatch and diagnostics system for elevators 17, a modem 18, a video recorder 19 , which includes a video camera with night vision mode, an infrared spotlight and a motion sensor, a concierge desk 20 and subscriber units 7, according to the number of apartments. The structure of the subscriber units 7 includes the subscriber modules 8 and the subscriber’s lock devices 9, the output of the subscriber module 8 being connected to the input of the subscriber’s lock device 9, the subscriber modules comprising: a keyboard and indication module 21; sound module 22; door sensor 23; control module 24, N security sensors 25; N fire alarm sensors 26 and CH4 gas sensor 27. The following are additionally introduced into the system: switch module 4; door sensor 5; interface module 6, which performs the function of a gateway together with the control panel; dimmers (dimmer - dimmer); floor 12, performing the function of floor lighting switches; lighting devices 13, according to the number of floors and lighting lines, grouped in two lines for lighting the landing sites of the elevator and lighting the entrance hall; the second controller switch network power 10; the first and second dimmer switch 14, the first and second lighting device protected 15, respectively, for controlling outdoor and vestibule lighting. The first segment of the computer network LAN1 is connected to an automated building management system (the system can function individually, or can be used as an element of a more global automated control system for an intelligent building), an interface module 6 and a video recorder 19. An additional inductor is introduced into the power supply unit 2 and a third one is formed an output for phantom power organization of the second segment of the LAN2 information computer network. The following are additionally entered into the subscriber module: router 28; humidity sensor module 29; activator module 30; the subscriber’s key device 31 and the network power supply 32. In the subscriber module 8, a third segment of the LAN3 data processing network is organized.

In the functional diagram of the system, the output of the door sensor 5 is connected to the first input of the control panel 1, the second input of which is connected to the first output of the power supply 2, the second output of which is connected to the input of the locking device 3. The first bus of the control panel is connected to the interface module 6, the output of which is connected with the first segment of the computer network LAN1. The second bus of the control panel is connected to the input of the switch module 4, which performs two functions: a network adapter (interface module) and a switch, the first output of which is connected to the input of the second segment of the computer network LAN2, the output of which is connected to the second output of the switch module 4. To the second a segment of the computer network LAN2 connected in parallel: the third output of the power supply 2; locking device 3; subscriber units 7 according to the number of apartments and additionally installed in the office premises of the attic and basement; floor dimmers 12; a module for interfacing with a dispatch and diagnostics system for elevators 17; the first and second controllers-switches network power 10; the first and second dimmer switches 14; modem 18 and the concierge board 20. The output of the subscriber module is connected to the input of the subscriber’s lock device. The outputs of the dimmer switches 14 are connected respectively to the first and second lighting protected devices 15, and the output of the first network switch-controller 10 is connected to the parallel power inputs of the first lighting devices 13 lighting elevator landing sites. The output of the second controller-switch of the mains power supply 10 is connected to parallel-connected power inputs of the second lighting devices 13 of the entrance hall lighting. The control input of the first and second lighting devices 13 is connected to the corresponding output of the floor dimmer 12, the concierge desk 20 is connected to the second segment of the computer network LAN2, to which the subscriber modules 8 are connected, the output of which is connected to the input of the subscriber’s lock device 9. The output of the modem 18 is connected to the telephone line. In the subscriber module 8, the output of the router 28 is connected to the third segment of the LAN3 data processing network, which forms the level of the activator sensors, made according to the topology of the common bus, to which are connected: keyboard and display module 21; sound module 22; control module 24; gas sensor 27; humidity sensor module 29; activator module 30; subscriber’s key device 31 and network power supply 32. The output of the door sensor 23 is connected to the input of the keyboard and display module 21. The security alarm cable, with N security sensors 25 connected to it, is connected to the first output of the control module 24. Fire protection cable, with connected to it M by fire alarm sensors 26, connected to the second output of the control module. The output of the key device of the subscriber 31 is connected to the input of the lock device of the subscriber 9. All modules and devices of the system included in the segments of the information computer network have a built-in microcontroller network adapter, powered by a phantom circuit - at the same time, an information signal and a supply voltage are transmitted via a network cable .

Additionally, an integrated multifunctional monitoring and control system in the structure of the power supply unit 2 may include a power phase selection module that performs operational control and switching of the power phase depending on the current voltage at the supply feeders.

In addition, the integrated multifunctional monitoring and control system may include a gas sensor CH4 16, and the output of the gas sensor CH4 16 is connected to the second segment of the computer network LAN2. A gas sensor is installed on the top floor.

Also, a system switch 11 can be added to the integrated multifunctional monitoring and control system, and the output of the system switch 11 is connected to the second segment of the computer network LAN2. The system switch 11 provides remote control of the lighting from the entrance in case of damage to the control panel 1.

The integrated multifunctional monitoring and control system may contain, in addition, a subscriber module 8, into which the telephone line-intercom switch 33 is additionally inserted. The output of the sound module 22 is connected to the first input of the telephone line-intercom switch 33, to the second input of which the subscriber's telephone is connected . The third input of the switch telephone line-intercom 33 is connected to the telephone line of the subscriber. Such a performance of the system will make it possible to additionally use the telephone as an intercom for the intercom, the function of which is performed by the system.

The integrated multifunctional monitoring and control system may contain in the subscriber module 8 a module of water leakage sensors 34, with the help of which the state of the water pipes and leaks of the heating system is monitored. The water leakage sensor module 34 is connected to a third segment of the data network LAN3.

The integrated multifunctional monitoring and control system, in addition, in the subscriber module 8 may additionally contain a network monitoring sensor 35, which is connected to the third segment of the information network LAN3.

The integrated multifunctional monitoring and control system in the subscriber module 8 further comprises a light air ion sensor 36. A light air ion sensor 36 is connected to a third segment of the data network LAN3.

The integrated multifunctional monitoring and control system in the subscriber module 8 may also include a video input-output module 37, and an additional video camera is also introduced into the DVR 19. In this case, the video input-output module 37 is connected to the second segment of the computer network LAN2. This makes it possible to organize video conferencing and allows you to enter an additional function of the system as a video intercom and video phone.

The integrated multifunctional monitoring and control system operates as follows.

Standby mode. The mode is activated when there is no tenant or guest in the active zone of the motion sensor of the control panel 1 for two minutes. The control panel 1 operates in the system monitoring mode. The microcontroller of the control panel 1 generates and transmits by means of the switch module 4, sequentially, a request code to the modules and blocks of the subscriber 7 of the system installed and registered during installation. Having received a response from the next block of the subscriber 7, the control panel 1 generates the following request. If the response from the next interrogated block of the subscriber 7 is not received, using the switch module 4, the control panel 1 switches the input-output of the LAN2 network segment and retransmits the request command. If no answer is received, the microcontroller generates a message about the malfunction of the subscriber unit 7 and transmits the information to the control room, duplicating the information on the LAN1 segment network and, using the modem 18, over the telephone network to the pre-programmed telephone numbers of the dispatchers. If the answer is received, the system returns, until the next case of no response signal, the module of the switch 4 to its original state and the polling cycle is repeated. If the response is not received again, the system repeatedly conducts the input-output switching of the LAN2 network segment and transmits a second request. In case of receiving a response, after the first switching of the network cable, the system generates a response about a single break in the network segment and transmits it to the control room. In the absence of a response signal, the control panel 1 transmits the next request and so on until a response is received. By the unit number of the subscriber who sent the response signal, the system determines the location of the second damage to the network segment and transmits information to the dispatcher console. Thus, when monitoring a segment of the LAN2 computer network, the system determines and fixes the location of two breaks, as well as fixes the time of detection (occurrence) of a malfunction. The monitoring function in the subscriber module 8 is performed by the router 28. It generates a request to the modules included in the subscriber module 8 and transmits information for fixing the state of the system to the control panel 1 and, using a modem 18 and / or a segment of the computer network LAN1, transmits to the control room to eliminate the consequences. Similarly, the system and subsystems - blocks of the subscriber 7, operate in emergency control mode. Activator module 30 is a multi-channel intelligent switch (contains several activators - control modules: air conditioning; electro-effluvial chandelier; air humidifier; fans; solenoid valves for supplying cold and hot water, gas, etc.), which, on command from the sensor modules: module humidity sensors 29, light air ion sensor 36, water leakage sensor module 34, etc. generates an alarm message, which then arrives at the control panel 1 for fixing and in the dispatching console and / or the concierge desk 20 for a quick response. Heating control - centralized by risers of the staircase. The shutdown command is generated by the corresponding sensor and for the first segment of the computer network LAN1 passes to the building management system, which performs the corresponding shutdown. At the same time, information about the emergency is recorded by the control panel 1.

In the intercom or video intercom mode, the tenant dials the code of the desired apartment on the control panel. The microcontroller of the router 28 of the subscriber module 7 generates and transmits to the network a command with the address of the block of the subscriber 7, which should be connected for negotiations. The sound module 22 of the called subscriber decrypts the address code and connects the talk node of the sound module 22 to the line for negotiations, before that it generates and transmits a melodic call signal. Communication is in duplex mode. The negotiation time is limited and is programmed using the control panel 1 during installation and commissioning of the system. If there is a telephone line-intercom 33 in the subscriber module 8 of the switch, the subscriber's telephone performs the role of the intercom node. When calling from the control panel 1 and the telephone network at the same time, the last one takes precedence. Router 28, which is part of subscriber module 8, performs two functions - monitoring the apartment system and the bridge-router when broadcasting messages from various modules: control module 24, in the event of an emergency with security or fire; network monitoring sensor 35, in the event of network parameters exceeding a certain voltage value in accordance with GOST 13109-97; a module of water leakage sensors 34, in case of leakage detection and the need for a centralized shutdown of water supply and heating.

In security mode, upon leaving the apartment, the tenant selects the security mode code using the keyboard and display module 21. The keypad and indication module 21 generates a message that transmits the router 28 to the control panel 1 and to the concierge desk 20. Then, after a single operation of the door sensor 23, the keypad and indication module 21 generates a control signal for arming the apartment and activating security sensors 25. Key device subscriber 31, having received an information signal about the activation of the security mode, with a signal from its output, turns on (or blocks, depending on the type of lock used) the locking device of subscriber 31. In this case, sales e if there is an entrance key to the door, without first disarming the apartment using the control panel 1, the tenant will not be able to enter the apartment, access will be closed. In case of unauthorized opening of the apartment, the door sensor 23 and / or any of the N security sensors are triggered. The keyboard and display module 21 and / or the control module 24 generate an alarm signal and, using the network, transmit it to the control panel 1 and / or the concierge desk 20, and also duplicate, using the modem 18, into the telephone network to a predetermined number. At the same time, the sound of the subscriber 22, the keypad and display module 21 displays a siren sound, which is also transmitted to the control panel 1 and the concierge board 20. When removing the apartment from protection, when the tenant arrives home, he must enter the apartment number, security code and confirm the legitimacy of the team using an electronic key. After that, the control panel 1 generates a code message to the corresponding unit of the subscriber 7, the signal through the router 28 goes to the input of the key device of the subscriber 31, which, after identification and decryption, issues a signal to its output to unlock the lock device of the subscriber 31. As a lock device subscriber 31 use electromagnetic latches with and without locking, electromechanical or electromagnetic locks. In addition, after any of the N security sensors is triggered in the apartment, the control module 24 activates the operation of the DVR 19. Based on the signal of the motion sensor integrated in the DVR 19, the DVR detects persons exiting the entrance and remembers the time of the event. In security mode, the DVR 19 records up to 256 frames, including in absolute darkness, using the built-in infrared spotlight. At the request of an automated building management system, which can be connected to the first segment of the computer network LAN1, the DVR 19 transmits the captured frames to a central data bank.

When a tenant or a guest approaches the entrance, in the dark, by a signal from the built-in motion sensor and when permission is received to turn on the lighting from the built-in or autonomous, connected to the first segment of the computer network LAN1, a pulse photoconverter of the control panel 1, the microcontroller of the control panel 1 generates and transmits to the network a signal to turn on the exterior lighting of the entrance, and when opening the front door or the door of the vestibule - a signal to turn on the vestibule and / or external lighting. The signal decrypts the first and / or second dimmer switches 14, respectively, and turns on the first and / or second lighting device protected by 10 corresponding signals from its outputs. When the tenant enters the entrance, the control panel 1 initiates the inclusion of lighting on the ground floor - in the lobby and at the elevator landing site and on the destination floor, if the elevator is in working condition. If the elevator does not work, as reported by the system, the module for interfacing with the elevator control and diagnostics system 17, control panel 1 turns on the fan-controlled lighting program, and, one by one, through the switch module 4, the microcontroller of control panel 1 turns on, for a predetermined time, floor dimmers 12 , which in turn will decrypt the command code and give an enable signal to their corresponding lighting devices 13.

In case of operation of the CH4 16 gas sensor located on the top floor of the entrance, the sensor 16 generates and issues a priority alarm signal to the network, which then transmits the modem 18 to the telephone network to a predetermined emergency telephone number and, in parallel, a similar signal is sent to the concierge desk 20 and to the control panel 1, where the microcontroller records the time of the emergency and, using the first segment of the computer network LAN1, transmits it to the automated building management system to form zhnyh action of blocking the possible consequences of the emergency (supply gas system locks in locked).

When the tenant leaves the apartment in the dark from the keyboard or automatically, when the door sensor 23 is triggered, the keypad and display module 21 generates a signal to turn on the entrance lighting in the hall, at the elevator landing site and, similarly, on the ground floor and in the vestibule. To do this, the keyboard and display module 21 of the corresponding unit of the subscriber 7 sends to the dimmers floor 12 and the first dimmer switch 10 commands to turn on the lighting. Dimmers floor 12 and the first dimmer switch 10 signals from their outputs include the corresponding lighting device 13 and the lighting device protected 14 vestibule.

When the control panel 1 fails, the lighting is controlled by a system switch 11 located on the ground floor. The lighting control is based on the ideology of light scenes, pressing the system 11 switch button simultaneously controls the operation of many lighting devices 13. By pressing the button again, the lighting of the elevator landing areas, hall and / or vestibule is switched on. The selected switch-on mode is indicated by the LED position indicator. After a predetermined programmed time, during commissioning, the system switch 11 issues a command to turn off the lighting in the entrance and put it into standby mode.

The videophone mode is used when there are 7 video input / output modules 37 in the subscriber’s blocks. The tenant selects the video mode code and displays the number of the needed apartment, or, for example, the code of the concierge 20, using the keyboard and display module 21, and the keyboard and display module 21 checks the loading of the second segment information and computer network and, if it is not busy, generates and transmits a command to the corresponding unit of the subscriber 7, which decrypts the package and connects its video I / O module 37 to the network. Residents conduct a video call session. The video session and audio conversations are limited to two minutes. The network arbiter is the control panel 1.

The control panel 1 is made mainly according to the patent of the Russian Federation No. 2185037, based on the AVR RISC microcontroller AT90S8535, the floor dimmers 12 are made on the basis of the KR1182PM1 microcircuit, and the network controllers-switches 10 are made on the KR1182PM1 and KR1182CA1 microcircuits manufactured by the NTTsKn CIT, city of . As fire sensors 26, fire smoke detectors IP 212-41 m, thermal magnetically contact fire detectors IP 105-2-1, etc. are used. Security sensors 25 - magnetic contact alarms of the "SMK" type, shock-type detectors of the "Window" type, etc. The programming of the microcontroller of the control panel is carried out during the assembly of the intercom; the mode of remote in-circuit programming is also provided when changing the configuration - expanding or changing the functionality. The pulsed photoconverter included in the first segment of the LAN1 data processing network is designed as an intelligent microcontroller sensor with an integrated network interface; it uses a SF2-5 semiconductor photoconductor based on cadmium sulfide (CdS) operating in the visible region of the optical range with a maximum spectral characteristics of about 0.55 microns. The main distinguishing feature of smart sensors and system modules is the presence of a microcontroller, a network interface and, as a result, digital identifiers and electronic specifications made according to the IEEE 1451.4 standard. All information about the sensor, including the latter, is stored in the memory of the microcontroller. There is no need to create a separate database for storing the manufacturer’s calibration documentation, information about the sensitivity of sensors. Simplified: diagnostics of modules when parameters leave the operating range of characteristics, eliminating cable connection errors, as the built-in memory eliminates the need for "manual" control of connections. The sensor ID is always available to the user. All information about the modules or sensors regarding their location, orientation or polarity, energy indicators, become known to the system as soon as the relevant information is recorded during the initial configuration of the system. Since all parameters characterizing the device (sensitivity, correction factors, etc.) are stored in the built-in memory, the sensors and modules of the system can be changed on the fly, without worrying about making any changes to the system. The use of built-in electronic specifications and calibration tables not only allows you to accelerate the launch of new products on the market, but also creates the conditions for improving product quality by increasing the accuracy and reliability of test information, more rapid adaptation of devices to the system.

Literature

1. The multi-apartment control and management system "McS", http://www.intel-house.ru/primer3.htm.

2. Russian Patent No. 2147145, G 08 B 25/00, publ. 03/27/2000

3. Patent of Russia No. 2205520, N 04 M 11/02, publ. May 27, 2003

4. Patent of Russia No. 2185037, N 04 M 11/02, publ. 07/10/2002

Claims (9)

1. An integrated multifunctional monitoring and control system containing a control panel, a power supply, a lock device, an interface module with a dispatch and diagnostics system for elevators, a modem, a video recorder, a concierge desk and subscriber units according to the number of apartments m × n, where m is the number of apartments per floor, an - the number of floors in the entrance, characterized in that the switch module is additionally introduced into the system; remote control door sensor; interface module, floor dimmers, performing the function of floor lighting switches; the first and second lighting devices, each according to the number of floors n, respectively, for lighting the landing sites of the elevator and lighting floor halls of the entrance; the first and second controllers-switches of mains power with the function of a residual current device; the first and second dimmer switches and the first and second lighting devices are protected respectively to provide outdoor and vestibule lighting, the first segment of the data network LAN1 is connected to an automated control system of an intelligent building, an interface module and a video recorder, and the sensor output of the control panel door is connected to the first the input of the control panel, the second input of which is connected to the first output of the power supply, the second output of which is connected to the input of the lock device VA, the first bus of the control panel is connected to the interface module, the second bus of the control panel is connected to the input of the switch module, which performs two functions: a network adapter and a switch, to the first output of which one end of the cable of the second segment of the computer network LAN2 is connected, the second end of which is connected to the second output of the switch module, to the second segment of the computer network LAN2, the third output of the power supply is connected in parallel; locking device; subscriber units according to the number of apartments and additionally installed in the office premises of the attic and basement; floor dimmers; module for interfacing with the dispatch and diagnostics system of elevators; the first and second controllers-switches network power; first and second switch dimmers; the modem and the concierge console, the outputs of the dimmer switches are connected respectively to the first and second devices protected by lighting, the output of the first controller-switch of the mains power is connected to the parallel power inputs of the first devices of lighting lighting of the elevator landing sites, the output of the second controller-switch of the mains power is connected in parallel connected power inputs of the second lighting devices of the storey halls of the entrance, the control input of the first and second lighting devices It is connected to the corresponding output of the corresponding floor dimmer, the modem is connected to the telephone line, the subscriber unit includes a subscriber module and an additional subscriber’s lock device, the output of the subscriber module is connected to the input of the subscriber’s lock device, the subscriber module includes a keypad and indication module, sound module, subscriber module door sensor, control module, N security sensors, M fire alarm sensors, CH4 gas sensor, router acting as a bridge When the broadcast of messages from the various modules that make up the module subscriber to the control panel; humidity sensor module; activator module; the subscriber’s key device and network power supply; in the subscriber’s module, the router’s output is connected to the third segment of the LAN3 data processing network, which forms the level of activator sensors based on the common bus topology, to which the keyboard and display module are connected; sound module; control module; CH4 gas sensor, humidity sensor module; activator module; the subscriber’s key device and network power supply, with the door sensor output connected to the input of the keyboard and display module, a security alarm cable with N security sensors connected to it, connected to the first output of the control module, a fire protection cable with M fire alarm sensors connected to it the second output of the control module, the output of the key device of the subscriber is connected to the input of the castle device of the subscriber, all modules and devices of the system included in the segments of information computational network are embedded microcontroller AC adapter, the power module configured by the phantom circuit - simultaneously on the information signal and the supply voltage are transmitted network cable. 2. The integrated multifunctional monitoring and control system according to claim 1, characterized in that the gas sensor CH4 is additionally introduced into it, and the output of the gas sensor is connected to the second segment of the computer network LAN2. 3. The integrated multifunctional monitoring and control system according to claim 2, characterized in that a system switch is additionally introduced into it, the system switch being connected to a second segment of the information network LAN2. 4. The integrated multifunctional monitoring and control system according to claim 2 or 3, characterized in that the telephone line-intercom switch is additionally introduced into the subscriber module, the output of the sound module being connected to the first input of the telephone line-intercom switch, the telephone is connected to the second input the subscriber’s device, the third input of the telephone line-intercom switch is connected to the telephone line of the subscriber. 5. The integrated multifunctional monitoring and control system according to claim 4, characterized in that the module of water leakage sensors is additionally introduced into the subscriber module, wherein the module of water leakage sensors is connected to the third segment of the information network LAN3. 6. The integrated multifunctional monitoring and control system according to claim 5, characterized in that a network monitoring sensor is additionally introduced into the subscriber module, the network monitoring sensor being connected to the third segment of the LAN3 data processing network. 7. The integrated multifunctional monitoring and control system according to claim 6, characterized in that a light air ion sensor is additionally introduced into the subscriber module, the light air ion sensor being connected to the third segment of the LAN3 data processing network. 8. The integrated multifunctional monitoring and control system according to claim 7, characterized in that the video input / output module is additionally introduced into the subscriber module, the video input / output module being connected to the second segment of the computer network LAN2. 9. The integrated multifunctional monitoring and control system according to claim 8, characterized in that an additional pulse photoconverter, implemented as a separate intelligent module of the pulse photoconverter, is additionally introduced, the module of the pulse photoconverter connected to the first segment of the data network LAN1.

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