RU58762U1 - SYSTEM OF CONTROL AND SECURITY OF REMOTE STATIONARY OBJECTS - Google Patents

Abstract

The utility model relates to monitoring and security systems for a large number of stationary objects in various fields of economic activity and is intended for use as technical means of recording events occurring with system objects, as well as security equipment in the structures of fire, security and emergency services. The technical result of the claimed utility model provides for an increase in the controlled objects by expanding the system capacity, expanding the functionality by means of software of logical interconnections of the monitoring and security functions, as well as increasing the reliability of the system. The monitoring and security system of remote stationary objects contains a monitoring center 1 with a computer 2 connected to a central cellular telephony modem 3 and through a central radio modem 4 to a central transceiver 5 connected via a radio network 6 to the equipment of object 7, including a controller 8 and sensors connected to it telemetry 9, security sensors 10, actuators 11, identification unit 12, power supply 13, object transceiver 14 connected to the radio network 6, object telephony modem 15 connected to the cellular telephone network AI 16 with a transceiver 17. The radio network 6 includes transceivers 18 and 19, while the latter operates at a different radio frequency than the central transceiver 5. The equipment of the object 7 contains a data bus 20 connected to the controller 8, as well as a module expander 21 comprising an identification unit 12, security sensors 10, actuators 11, and a controller 22 of the object expander 21 connected to the data exchange bus 20 connected to them. The monitoring center is also equipped with a local computer network 23. The ud control and protection system stationary stationary objects also contains a backup center 24 connected to the local computer network 23.

1 n.p., 1 s.p., 1 ill.

Description

The utility model relates to monitoring and security systems for a large number of stationary objects in various fields of economic activity and is intended for use as technical means of recording events occurring with system objects, as well as security equipment in the structures of fire, security and emergency services.

A known monitoring system for stationary objects, containing a monitoring center for objects, monitoring tools located on the monitoring objects, and communication tools connecting the monitoring tools with the interface of the equipment of the monitoring center of objects, which contains at least a working room and a situation room, while the working equipment the hall contains at least one computer, at least one monitor, with the ability to visualize the incoming information, the equipment of the situational room contains an individual screen, Connected to the equipment of the working room, and means of two-way communication with the working room, the control means include at least a telemetric digital information generation unit and / or a unit for indicating the coordinates of the observation, and / or for the monitored portion of the object of observation, a unit for indicating the current time monitoring the status of the object of observation, as well as the unit for creating a video image of the object of observation, while the system uses wired, wireless and satellite communications (see RF patent for utility model No. 28927, 7 G 05 B 19/00, “System of objective monitoring of the situation”, publication date 2003.04.20.)

A disadvantage of the known control system is that it does not allow organizing the equipment of monitoring objects according to a modular type, ensuring the construction of a security system of any complexity with a large number of sensors and their use in the system of object equipment, as well as the lack of logical interconnections of the security functions of the unit’s units, which limits its functionality in terms of increasing the number of sensors for an object with a hierarchical system of logical relationships between divisions. In addition, the disadvantage of the known control system is the lack of duplication of the control center of objects, which can lead to complete inoperability of the system when it fails.

The closest in essential features is the monitoring and protection system of stationary objects (see RF patent for utility model No. 29170, 7 G 08 B 25/00, G 08 B 26/00, publication date 2003.04.27.), Containing a surveillance center with

a computer connected to the central cellular telephony modem and through the central radio modem to the central transceiver, the latter being connected to the facility equipment, including telemetry sensors, security sensors and executive devices, via the radio network, and the central cellular telephony modem via the cellular telephony network, the equipment located at the facility is equipped with a controller to which the mentioned sensors and actuators are connected, as well as additionally installed identification unit and unit power supply connected to the uninterruptible power supply, and the controller is connected to an object cellular telephony modem additionally installed on the object and through the object radio modem to the object transceiver, the latter being connected to the mentioned radio network, and the object cellular telephony modem to the mentioned cellular telephony network, however, equipment located at the facility can be made in the form of a single module.

A disadvantage of the known monitoring and protection system for stationary objects, as well as the aforementioned analogue, is that it does not allow organizing the equipment of objects according to a modular type, which ensures the construction of an object security system of any complexity with a large number of sensors and their use in the object equipment system, as well as lack of logical interconnections of the security functions of the units of the facility, which limits its functionality in terms of increasing the number of sensors for the facility with erarhicheskoy logical dependencies between system units. The well-known monitoring and security system with the equipment of an object in the form of one module has a limited number of sensors and requires the installation of similar modules in each unit of the object, which makes it more complex and expensive. In addition, the disadvantage of the known control system is the lack of duplication of the control center of objects, which can lead to complete inoperability of the system when it fails.

In addition, the lack of software filtering of messages and priority transmission of urgent messages reduces the transmission speed of the latter and limits the throughput of the system, and therefore reduces the total number of control and protection zones of the entire system.

The technical result of the claimed utility model provides for an increase in the controlled objects by expanding the system capacity, expanding the functionality by means of software of logical interconnections of the monitoring and security functions, as well as increasing the reliability of the system.

The indicated technical result is achieved in that the monitoring and security system of remote stationary objects, comprising a monitoring center with a computer connected to a central cellular telephony modem and through a central radio modem to a central transceiver connected via radio network to the equipment of the facility, including a controller and sensors connected to it telemetry, security sensors, actuators, identification unit, power supply, object transceiver connected to the radio network, object modem cell phone and associated with the cellular telephone network, according to a utility model, the radio network further comprises a transceiver operating at a different radio frequency than the central transceiver, the equipment of the object contains a data bus connected to the controller and at least one object expander, made in the form of a module including an identification unit, control sensors, actuators and an object expander controller connected to them, connected to the data exchange bus, the controller and the object expander controller with Placed with a program for organizing the logical relationship of the monitoring and security functions recorded on a computer-readable storage medium.

Moreover, the monitoring and security system for stationary objects is equipped with a backup monitoring center connected to the first monitoring center and connected to the central cellular telephony modem and through the central radio modem to the central transceiver connected via radio network to the equipment of the object.

The presence of an additional transceiver introduced into the radio network operating on a different radio frequency than the central transceiver can significantly increase the radio network throughput by transmitting messages on two radio frequencies: from objects on radio frequency F2, and from the radio network on radio frequency Fl.

The inclusion in the equipment of the object of the data exchange bus connected to the controller and at least one object expander, made in the form of a module including an identification unit, control sensors, actuators and the object expander controller connected to them, connected to the data exchange bus, allows introduce the second, the level of the hierarchy of logical relationships of the control functions of the units of the object, which expands the functionality of the system.

In addition, the introduction of a data exchange bus and modules connected to it can significantly increase the number of protected objects due to the fact that

The data exchange bus can optionally connect 32 object expander controllers.

The execution of the controller and the controller of the expander of the object with the possibility of organizing through software the logical relationship of the functions of the equipment of the object, provides the necessary logic for monitoring and protecting remote objects.

The presence of a duplicate surveillance center can improve the reliability of the system.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability condition of “novelty”.

The patentability condition "industrial applicability" is confirmed by the example of a specific implementation of the utility model.

Figure 1 shows a block diagram of a monitoring system and protection of remote stationary objects.

The monitoring and security system of remote stationary objects contains a monitoring center 1 with a computer 2 connected to a central cellular telephony modem 3 and through a central radio modem 4 to a central transceiver 5 connected via a radio network 6 to the equipment of object 7, including a controller 8 and sensors connected to it telemetry 9, security sensors 10, actuators 11, identification unit 12, power supply 13, object transceiver 14 connected to the radio network 6, object telephony modem 15 connected to the cellular telephone network AI 16 with a transceiver 17. The radio network 6 includes transceivers 18 and 19, while the latter operates at a different radio frequency than the central transceiver 5. The equipment of the object 7 contains a data bus 20 connected to the controller 8, as well as a module expander 21 including an identification unit 12, security sensors 10, actuators 11 and an object expander controller 22 connected to them, connected to the data exchange bus 20. The monitoring center is also equipped with a local computer network 23. The system also contains a connection a backup monitoring center 24 connected to the local computer network 23 with a computer 2 connected to the central modem of cellular telephony 3 and through the central radio modem 4 to the central transceiver 5 connected via the radio network 6 to the equipment of facility 7.

The monitoring and security system of stationary objects is as follows. Telemetry sensors 9, security sensors 10, actuators 11, block

identifications 12 of each unit (not shown in the drawing) of the object are combined using the software of the controller 8 and controller 22 of the expander of the object 21 into the first hierarchy level with the ability to simultaneously change its operation mode. The units of the facility 7 are combined on the basis of belonging to one set of facility equipment. For the units of the object 7 there are operating modes in the following states: passive, security, exit, input, perimeter security, check mode.

The interaction of the sensors in the units of the object 7 is determined by the following properties: independent action, round-the-clock, instant action in security mode, with a delay in entry and exit, with a conditional delay or conditional passage.

By the type of event when sensors are triggered, they have the following functions: transmitting a non-alarm message to the center (transmission priority is low), transmitting an alarm message to the center (transmission priority is high), without transmitting a message to the center, and turning on the siren.

Each unit of facility 7 has its own number in the system, which is connected in the database of surveillance center 1 and the backup monitoring center 24 with its territorial location, as well as with the responsible person of the unit.

Programming of all properties of the object equipment is carried out by editing the parameters that are recorded in the non-volatile memory of the controller 8 of the object 7 and each controller 22 of the expander of the object 21.

The software of controller 8 and controller 22 of the expander of object 21 provides the logical dependencies of the second level of the hierarchy between units when they are armed and disarmed according to the hierarchy adopted in the system: independent, completely dependent on another specified unit, through passage unit, dependent on the passage, which are determined by the properties assigned to units.

When events occur, the controller 8 or controller 22 generates a signal in which the event and the place of its occurrence are encoded. The signal from the controller 22 is received via the data exchange bus 20 to the controller 8, from which through the object transceiver 14 at the frequency F2 to the transceiver 19, and through the cellular telephony modem 15 to the cellular telephone network 16. The transceiver 19 receives the signals of all remote objects, filters them and transmits to the transceiver 18 taking into account the priority of the event. Transceiver 18 transmits signals at a frequency of F1 until it receives confirmation of a successful reception. The signal from the central transceiver 5 enters the computer, where it is recorded in the database and cause the corresponding response of the monitor.

Claims (2)

1. A monitoring and security system for remote stationary objects, comprising a monitoring center with a computer connected to a central cellular telephony modem and through a central radio modem to a central transceiver connected through a radio network to the facility’s equipment, including a controller and telemetry sensors connected to it, security sensors, executive devices, an identification unit, a power supply unit, an object transceiver connected to a radio network, an object cellular telephony modem connected to a cellular telephone network, characterized the fact that the radio network additionally contains a transceiver operating at a different radio frequency than the central transceiver, the equipment of the object contains a data bus connected to the controller and at least one expander of the object, made in the form of a module including an identification unit, control sensors, executive devices and the controller of the object expander connected to them, connected to the data exchange bus, while the controller and the controller of the object expander are equipped with a program for organizing the logical relationship of functions of control and protection. 2. The system according to claim 1, characterized in that it is equipped with a backup monitoring center connected to the first monitoring center and connected to the central cellular telephony modem and through the central radio modem to the central transceiver connected via radio network to the equipment of the object.