RU2733899C1 - Method and device for monitoring and controlling an object - Google Patents

Abstract

FIELD: alarm system.

SUBSTANCE: invention relates to signaling. Method of monitoring and controlling an object includes controlling at least one controlled sensor connected to a base module, providing transmission over GPRS of an alarm signal to registered subscribers when a "negative" event is detected by the controlled sensor, includes control of controlled mechanism connected to basic module, control of controlled sensor and controlled mechanism connected to one of expansion modules connected via radio channel to basic module, transmitting information from the monitored sensors of the basic module and the extension module to the remote user terminal over the GPRS channel, monitoring and control of basic module and expansion module and controlled mechanisms connected to basic module and expansion module, wherein control by controlled sensors and controlled mechanisms are controlled both from basic module and expansion module in automatic mode, and from remote user terminal.

EFFECT: technical result consists in improvement of resistance of controlled object to external action.

12 cl, 7 dwg

Description

The invention relates to the field of signaling, and in particular to methods and devices for monitoring the state and control of object systems [G08B19 / 00, G08B25 / 14].

State of the art INTELLIGENT MONITORING SYSTEM BASED ON INTERNET TECHNOLOGIES [CN109841034 (A), publ .: 04.06.2019], including a central controller, a palmprint data collection device, a GSM module, a three-dimensional position sensor, a camera, light and sound alarm and mobile phone APP module. A palm print collector is located at the door. A 3D position sensor is built into the door and window to collect data on the orientation of the door and window. The chamber contains an inner chamber facing the door and window, and an outer chamber installed at the outer door. After the 3D position sensor receives a signal when the door and window move, the indoor camera and the outdoor camera are simultaneously activated to collect the current image data of the door and window, and send the collected images to the designated account of the mobile phone APP terminal.

The disadvantage of the analogue is the high labor intensity and cost of installing the specified monitoring system due to the presence of video devices and devices for recognizing palmprints in the system.

Also known is the AUTOMATIC SURVEILLANCE SYSTEM [CN205451375 (U), publ .: 08/10/2016], which includes a power adapter, a gas detector, a magnetic detector on doors and windows, a remote control, a fixed emergency button, an alarm unit and a wireless signal. Light alarm, the alarm node has a power interface, signal input and output connectors, the power adapter is connected to the power interface of the alarm node, gas detector, magnetic door and window detector, the remote control and fixed emergency button are connected to the output of the alarm node via RF signal, and wireless sound and light alarms are connected to the output of the alarm unit via an RF signal, and the alarm signal is transmitted via GSM to mobile and landline telephones.

The disadvantage of the analogue is the inability by the user to independently configure the dependencies between the measurement indicators of various devices / modules (in particular, the values of the meters of such devices / modules) and, depending on this, execute certain commands on other devices.

The closest in technical essence is the SECURITY SECURITY SYSTEM [CN206584486 (U), publ .: 10/24/2017], containing a control terminal and an anti-theft unit, and the control terminal and an anti-theft unit form a "star" topology, the control terminal contains a protective casing, a single-chip controller board is installed inside the protective casing, and the single-chip controller input is connected to the signal detection module and the voice module, the wireless module is connected to the information output, and a rechargeable lithium battery is connected to the power connector, the signal detection module includes the camera module and group of sensors. The output of the group of sensors is connected to the data collection card, the voice module includes a speaker and a microphone. The wireless communication module includes a network controller and a GSM module. The theft deterrent is connected to the wireless router, and the wireless router and wireless module form a local area network system.

The main technical problem of the prototype is the low resistance of the monitored object to external unauthorized influences, due to the limited number of sensors in the system that control and the inability to adjust the relationship between the measurement indicators and command execution.

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to increase the resistance of the controlled object to external influences.

The specified technical result is achieved due to the fact that the method of monitoring and managing an object, including control by at least one monitored sensor connected to the base module, providing transmission of an alarm signal to registered subscribers via the GPRS channel when the monitored sensor registers a "negative" event, which is different that includes the control of at least one controlled mechanism connected to the base module, in addition, includes the control and management of at least one controlled sensor and at least one controlled mechanism connected to one of the expansion modules connected to radio channel to the base module, transfer of information from the monitored sensors of the base module and the expansion module to the remote user terminal via the GPRS channel, control and management of the base module and the expansion module and controlled mechanisms connected to the base module and the expansion module, while monitoring monitored sensors and controlled mechanisms are controlled both from the base module and the expansion module in automatic mode, and from the remote user terminal, the control of the controlled sensors by the base module and the expansion module is carried out by receiving a digital or analog signal from the monitored sensor or the state of the monitored sensor circuit, and control of controlled mechanisms from the base module and expansion module is carried out by sending an electrical signal to the relay of controlled mechanisms, control and management of the base module and expansion module and controlled mechanisms connected to the base module and expansion module from a remote user terminal is carried out by sending reserved commands in the form of SMS - messages via GPRS-channel from the remote user terminal to the controller via the GSM-module of the base module, including a sequence of alphanumeric characters containing the command text, command argument, and access password.

In particular, control and management of the base module, expansion module and controlled mechanisms is carried out from the base module registered as a subscriber in the phone book on the SIM card of the GSM module of the base module.

In particular, the commands are reserved in the memory of the controller of the base unit.

In particular, the most frequently used commands are reserved in the memory cells of the SIM card.

In particular, a "negative" event registered by the monitored sensor is the violation of the monitored sensor circuit.

In particular, the "negative" event registered by the monitored sensor is the change in the ambient temperature from the set values.

The specified technical result is achieved due to the fact that a device for monitoring and controlling an object containing a base module, including a controller, a GSM module, a power supply and connected to the base module, at least one sensor and one microphone, characterized in that the base module additionally includes an interface module and at least one relay, to the control outputs of which the controlled mechanism is connected, from one to four monitored zones are connected to the base module, each of which is made in the form of up to 10 control sensors connected in one circuit, to the base at least one microphone is connected to the module, an expansion module is connected to the interface module, which includes at least one relay, to the control outputs of which a controlled mechanism is connected and up to eight monitored zones, each of which is designed as connected into one a chain of up to 10 control sensors, a remote t is connected to the base module via a GSM module User terminal.

In particular, the sensor is designed as a temperature sensor.

In particular, the controlled mechanism is made in the form of a siren, a heater, a valve for supplying water, gas, or a control system for heating, air conditioning, ventilation, irrigation, sauna, lighting, etc.

In particular, the monitoring sensors are made in the form of sensors connected in series with each other with a normally closed dry contact.

In particular, the monitoring sensors are made in the form of sensors connected in parallel with each other with a normally open dry contact.

In particular, the user's remote terminal is made in the form of a personal computer, tablet or smartphone.

Brief description of the drawings.

Figure 1 shows a block diagram of an object monitoring and control device.

Figure 2 shows a diagram of the serial connection of control sensors.

Figure 3 shows a diagram of the parallel connection of control sensors.

4 shows an exemplary subscriber list.

5 shows an exemplary list of default commands in a SIM card memory.

6 shows an exemplary list of command arguments for activating monitoring sensors.

7 shows the types of SMS messages sent to registered subscribers.

The figures indicate: 1 - base module, 2 - controller, 3 - sensor, 4 - GSM module, 5 - SIM card readers, 6 - power module, 7 - relay, 8 - electronic key controller, 9 - internal interface module , 10 - control sensors, 11 - external sensors, 12 - expansion module, 13 - external interface module, 14 - controlled mechanisms, 15 - microphone, 16 - antenna module, 17 - power supply, 18 - backup power supply, 19 - remote user terminal.

Implementation of the invention.

The object monitoring and control device consists of a base module 1 (see Fig. 1) on the board of which controller 2 and sensor 3 connected to it, GSM module 4, power module 6, up to 3 relays 7, electronic keys controller 8 are mounted , internal 9 and external interface modules 13. Sensor 3 is made in the form of a temperature sensor. The internal interface module 9 is designed as a universal serial bus. The external interface module 13 is made in the form of a radio signal transceiver.

One or a pair of SIM card readers 5 and antenna module 16 are connected to the information inputs of the GSM module 4.

Power supply 17 and backup power supply 18 are connected to the inputs / outputs of the power module 6.

A controlled mechanism 14 is connected to the control outputs of the relay 7, made in the form of a siren, a heater, a valve for supplying water, gas, or a control system for heating, air conditioning, ventilation, irrigation, sauna, lighting, etc.

External sensors 11 are connected to the information inputs of the electronic keys controller 8, made in the form of an electronic key reader or digital temperature sensors (not shown in the figure).

Up to 12 monitored zones are connected to the inputs of the basic module 1, each of which is made in the form of up to 10 control sensors 10 connected in one circuit, having outputs of the "normally closed dry contact" or "normally open dry contact" type.

An extension module 12 is connected to the external interface module 13, which includes up to eight relays 7 with controlled mechanisms 14 connected to them and up to 8 monitored zones, each of which is made in the form of up to 10 control sensors 10 connected in one circuit.

One to three microphones 15 connected in series are connected to the input of the basic module 1.

The object monitoring and control method is implemented as follows.

To monitor and control the object, the main and backup SIM cards are inserted into the SIM card readers 5 of the base module 1, the antenna module 16, external sensors 11, the backup power supply 18 and the power supply 17 are connected. Power is supplied to the base module 1, waiting for GSM registration -module 4 in the cellular network and write in the phone book of the main SIM card from the 1st to the 29th cells a list of subscribers, consisting of one main and nine additional subscribers for sending SMS messages and dialing by voice message (see Fig. 4 ). To add, delete or change numbers in the list of subscribers, from the remote terminal of user 19 send an SMS message with the command N11 (+79161234567) 00000, where N11 is the number of the entry on the SIM card, +79161234567 is the changed subscriber's phone number, 00000 is the password access.

After entry into the phone book of the subscriber's phone under the number "00", the most frequently used (by default) commands for monitoring and control are automatically generated in the memory cells of the SIM-card from the 30th to the 52nd.

Place control sensors 10 in controlled areas and connect them to the inputs of the base module 1, while with the number of control sensors 10 exceeding the number of inputs on the base module 2, they combine control sensors 10 into groups of up to 10 according to purpose or location, connecting the outputs of control sensors 10 of one group (control zone) in one circuit, while control sensors 10 with outputs of the "normally closed dry contact" type are connected in series with each other and an additional resistance of 3.6 kΩ (see Fig. 2), and control sensors 10 with outputs of the "normally open dry contact" type, they are connected in parallel with each other and with an additional resistance of 3.6 kΩ (see Fig. 3). With this resistance, the voltage at the zone input will be 50% of the voltage arising at the zone input when the circuit is open.

To turn on the control sensors 10, the necessary inputs of the base module 1 are activated. For this, a command is sent from the remote user terminal 19 via an SMS message containing the arguments defining the operating modes of the control sensors 10 (see Fig. 6). For example, by command N50 (110210020003) 00000 zones 1,2,5 are set and removed from control according to the controller mode 2 "on control" or "control removed", zones 3,6,7,9,10,11 are not used, control sensors 10 are not connected to them, zones 4,8 are used to constantly monitor alarm buttons or sensors such as firefighters, water or gas leaks (not shown in the figures), zone 12 has no restrictions on the number of operations, operations are not accompanied by the activation of a siren.

After activating the inputs of the base module 1, an SMS message is sent from the remote terminal of the user 19 registered in the phone book of the SIM card containing a formalized command to change the voltage control limits at the input of control sensors 10 for each zone. For example, Uz03 = 25/75 00000, where Uz03 is the command text for input No. 3, 25/75 is the argument setting the lower limit of the range to 25%, and the upper limit to 75% of the voltage at the output of the base module, 00000 is the access password. In response, an SMS message with the current boundaries of the "normal" voltage range for all inputs will be sent from the base module 1 to the remote operator terminal 19. The zone is considered violated if the voltage at the input of the zone goes beyond the specified range (norm). Open loop (voltage = 100%) or short circuit of the input to the "COMM." (voltage = 0%) will trigger the input.

Additional external sensors 11 and controlled mechanisms 14 are placed on controlled objects, the control outputs of controlled mechanisms 14 are connected to devices to be controlled (not shown in the figures). Additional external sensors 11 are connected to the external interface module 13, and the controlled mechanisms 14 to the relay 7 of the base module 1.

One to three microphones 15 connected in series are connected to the connector on the microcontroller 1 board.

To expand the number of controlled zones and objects, up to four expansion units 12 are connected to the microcontroller board 1 through the external interface unit 13, to each of which, in turn, through relay 7, up to 4 controlled mechanisms are connected, and up to 8 controlled zones are connected to the inputs , each of which is made in the form of control sensors 10 connected in one loop, while up to 30 control sensors 10 are connected to each of the expansion units.

A user terminal (not shown in the figures), for example, a computer, is connected to the controller 2 through the internal interface unit 9, an external sensor 11 is connected to the electronic keys controller 8, made in the form of an electronic key reader (not shown in the figures), the device is unlocked with an electronic key and from the terminal, the boundaries of the "normal" operation of the built-in sensor 3, control sensors 10 and external sensors 11 and the conditions for controlling the relay 7 are set. After entering the data, to prevent unauthorized access, access to the base module is blocked with an electronic key.

The boundaries of the "normal" operation of the sensor 3, control sensors 10 and external sensors 11 and the control conditions of the relay 7 are also set from the remote user terminal 19 by means of commands, while for each sensor an admissible temperature range can be set, violation of which leads to sending an alarm SMS.

The temperature range is controlled according to the readings of only those temperature sensors whose numbers are indicated in the settings. To set the upper limit of the temperature range, in case of violation of which messages are sent, send an SMS message with the command Temp.Hx = + 28 00000, where Temp.Hx is the command text for setting the upper temperature limit, +28 is the upper temperature limit, 00000 - access password. To set the lower limit of the temperature range, in case of violation of which messages are sent, send an SMS message with the command Temp.Lx = + 18 00000, where Temp.Lx is the command text for setting the lower temperature limit, +18 is the lower temperature limit, 00000 - access password.

To turn on the relay 7 when setting on control from the remote terminal of the user 19 send an SMS message containing a formalized command, the text of which is written in the 39th cell of the phone book of the SIM card. For example, a message with the text N39 (1) 00000 sets that the 1st relay is switched on when arming, with the argument (0), the 1st relay must be off when arming.

To set the temperature automatically maintained in the room (threshold for switching on relay 7), an SMS message is sent from the remote user terminal 19 with a command in the format: Temp.R2 = + 22 00000, where Temp.R2 is the command text for controlling the second relay 7 of the base module 1, +22 - preset room temperature, 00000 - access password. To set a two-level room temperature value, send a command with the text Temp.R2 = 22/26 00000, where 22 is the temperature value in the daytime, 26 is the temperature value at night.

To turn on the siren connected to the outputs of one of the relays 7 from the remote terminal of the user 19, a formalized command is sent by SMS, the text of which is written in the 36th cell of the SIM card phone book. For example, a message with the text N36 (0) 00000 sets that the siren is disabled when arming on control; with the argument (1), the siren is turned on when arming.

When external sensors 11 and / or sensor 3 and / or control sensors 10 register an unauthorized change in the state of the monitored object (the parameters registered by sensors 3, 10, 11 go beyond the boundaries of "normal" operation), for example, registration of movement, vibration, glass breaking, opening doors, smoke, gas leaks, flooding, changes in pressure, temperature, etc. the signal from external sensors 11 and / or temperature sensor 3 and / or control sensors 10 is fed to controller 2, which in turn, through relay 7, gives signals to actuate controlled mechanisms 14 and a command to GSM module 4 to send SMS messages from alarm text and voice calls to subscribers from the phone list. The text of SMS-messages about activation of zones includes up to 60 characters in Latin or up to 30 characters in Cyrillic.

If the temperature exceeds the set temperature range, that is, when the readings of sensor 3 or one of the external sensors 11 exceed the upper set level or fall below the lower set level, controller 2 sends an SMS message to the subscriber from the list with a description of the violation (type 2) (see. 7), sensor number and temperature value. A repeated message (type 2) about a high level violation will be sent if the temperature first drops below the level by more than 20 ° C and then exceeds it again. A repeated message (type 2) about violation of the lower level will be sent if the temperature first exceeds the level by more than 20 ° C, and then falls below it again. The next message (type 2) will be sent when the temperature rises above the upper level or when the temperature drops below the lower level by 50 ° С, 100 ° С, etc.

In case of loss / restoration of 220V, controller 2 sends an SMS message to the subscriber from the list about loss (type 3) or restoration (type 3) of 220V voltage.

When the control sensors 10 are triggered (violation of the control zone), controller 2 sends an SMS message corresponding to this zone (type 1), including the text for a specific zone, the fixed voltage level at the triggered input (in% of the voltage at the output of the backup power supply 18) , set boundaries for this input, status bar of all inputs. For example, when the control sensor 10 is triggered (open circuit) connected to the 1st zone and the activity profile of zones 1111 (default value), the following will be sent:

Trevoga! Narushena zona 1

100% (25% -75%)

Hnnn

After 4-fold triggering of control sensors 10 of any zone and sending corresponding SMS, the zone is disconnected from control and subsequent triggering of control sensors 10 of this zone does not lead to sending SMS. Control over this zone is resumed only upon subsequent control of the system.

When arming for control, if the SMS Postanovka function is activated, the controller sends an SMS message (type 3) corresponding to this zone, indicating the number of the key used (the master key has the number "0") or the phone number from which the command to arm or setting at the entrance "UPR".

When uncontrolled, if the SMS snjatie function is activated, the controller sends a confirmation SMS message (type 3), indicating the number of the key used (the master key has a number "0") or the phone number from which the withdrawal command was sent.

In case of a critical discharge of the backup power supply 18, controller 2 sends an SMS message (type 3) about the critical discharge of the backup power supply 18, while the power supply of the control sensors 10, the power of the microphone 15, the control of inputs and the switched on relays 7 are turned off. 18 will cause disconnection of GSM-module 4. Controller 2 sends an SMS message about this event (type 3).

If there is no communication with the expander 12, one of the external sensors 11, controller 2 sends an SMS message (type 3) about the communication failure with the expander 12, one of the external sensors 11 with their numbers indicated.

Changes in the environment on the object where people or animals are present are monitored by listening to sound through microphones 15.

In the event of a power failure, the power supply module 6 transfers power to the device from the backup power source 18. When power is restored to the power supply 17, the power supply module 6 transfers power to normal mode and provides charging of the backup power source 18.

EFFECT: increased resistance of the monitored object to external influences is achieved due to the fact that the device for monitoring and controlling the object includes a base module 1 and an extension module 12, providing the creation of up to 12 zones controlled by monitoring sensors, each of which contains up to 10 control sensors 10 connected in a chain and registering external influences on them and control of up to 11 controlled mechanisms 14 connected to the base module 1 and the expansion module 12, while monitoring and controlling the base module 1, the expansion module 12 and controlled mechanisms 14 connected to base module 1 and expansion module 12 is carried out by transmitting reserved commands in the form of SMS messages via the GPRS channel from the remote user terminal to the controller 2 of the base module via the SIM card of the GSM module 4 of the base module 1, including a sequence of alphanumeric characters containing command text, arguments command copy and password allowing access to the system.

Claims (12)

1. A method for monitoring and controlling an object, including control of at least one monitored sensor connected to the base module, which ensures transmission of an alarm signal to registered subscribers via the GPRS channel when a “negative” event is registered by the monitored sensor, characterized in that it includes control of at least one controlled mechanism connected to the base module, in addition, includes monitoring and control of at least one monitored sensor and at least one controlled mechanism connected to one of the expansion modules connected by radio to the base module, transferring information from the monitored sensors of the base module and expansion module to a remote user terminal via GPRS, control and management of the base module and expansion module and controlled mechanisms connected to the base module and expansion module, while monitoring the controlled sensors and control of controlled mechanisms is carried out both from the base module and the expansion module in automatic mode, and from the remote user terminal, the control by the monitored sensors by the base module and the expansion module is carried out by receiving a digital or analog signal from the monitored sensor or the state of the monitored sensor circuit, and control of the controlled mechanisms from the base module and the expander is carried out by supplying an electrical signal to the relays of controlled mechanisms, the control and management of the base module and the expander and controlled mechanisms connected to the base module and the expander from the remote user terminal is carried out by transferring reserved commands in the form of SMS messages via the GPRS channel from the remote user terminal to the controller via the GSM-module of the base module, including a sequence of alphanumeric characters containing the command text, command argument and access password ... 2. The method according to claim 1, characterized in that the control and management of the base module, expansion module and controlled mechanisms is carried out from the base module registered as a subscriber in the telephone book on the SIM card of the GSM module of the base module. 3. The method according to claim 1, characterized in that the commands are reserved in the memory of the controller of the base unit. 4. The method according to claim 1, characterized in that the most frequently used commands are reserved in the memory cells of the SIM card. 5. The method according to claim 1, characterized in that the "negative" event recorded by the monitored sensor is a violation of the monitored sensor circuit. 6. The method according to claim 1, characterized in that the "negative" event recorded by the monitored sensor is a change in the ambient temperature from the preset values. 7. A device for monitoring and controlling an object containing a base module, including a controller, a GSM module, a power supply and at least one sensor and one microphone connected to the base module, characterized in that the base module additionally includes an interface module and at least at least one relay, to the control outputs of which the controlled mechanism is connected, from one to four monitored zones are connected to the base module, each of which is made in the form of up to 10 monitoring sensors connected in one circuit, at least one microphone is connected to the base module, to the interface an expansion module is connected to the module, which includes at least one relay, to the control outputs of which a controlled mechanism is connected and up to eight monitored zones, each of which is made in the form of up to 10 control sensors connected in one circuit, to the base module via a GSM module remote user terminal. 8. The device according to claim 7, characterized in that the sensor is made in the form of a temperature sensor. 9. The device according to claim 7, characterized in that the controlled mechanism is made in the form of a siren, a heater, a valve for supplying water, gas or a control system for heating, air conditioning, ventilation, irrigation, sauna, lighting, etc. 10. The device according to claim 7, characterized in that the control sensors are made in the form of sensors connected in series with each other with a normally closed dry contact. 11. The device according to claim 7, characterized in that the control sensors are made in the form of sensors connected in parallel with each other with a normally open dry contact. 12. The device according to claim 7, characterized in that the remote user's terminal is made in the form of a PC, tablet or smartphone.

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