RU119473U1 - MANAGEMENT SYSTEM - Google Patents

Abstract

 1. The control system, including control sensors, actuators associated with the respective controllers, as well as an automatic control unit located at the control object,! characterized in that it additionally includes a remote control center server with software that allows you to change the settings in the program of the control system and via the Internet channel connected to the controllers and the automatic control unit, the controllers and the automatic control unit are connected by an Ethernet local area network, the automatic control unit is additionally connected by a GSM channel to a remote control center server, with each controller having a built-in web server accessible by a computer an Ethernet / Internet network and configured to configure controller operation parameters, view sensor readings and manually control executive devices, as well as transmit data to a remote server via the Internet and Ethernet channels to an automatic control unit that is capable of storage, processing the data coming from the specified controllers and the remote server and issuing control commands to executive devices. ! 2. The control system of claim 1, characterized in that it further includes injector blocks configured to transmit power from a nearby voltage source via an 8-pair Ethernet cable to a powered controller / automatic control unit.

Description

The utility model relates to the field of information management systems and is intended for control and intelligent management of the infrastructure of residential, office, industrial, public and other buildings and premises, including engineering systems of electricity, water, gas, ventilation, security, resource accounting, etc., with the ability to quickly respond to emergencies and eliminate them.

A known system of control and protection of telecommunication facilities, which is intended for use in telephone networks (RF Patent No. 2274903, G08B 25/08, 2005). The system includes a computer control center and peripheral terminals that collect information from control sensors. As communication channels used telecommunication channels. The system allows you to record accidents and take measures to notify management to eliminate them, but it does not allow you to autonomously manage the infrastructure of a controlled facility without the participation of a dispatcher.

If it is necessary to expand the control zone, the system requires the connection of additional external expansion modules (BMP) through a special interface input, which leads to more complicated installation and lower speed of updating data from sensors connected to the BMP.

When the central microprocessor controller fails, the known system becomes inoperative and uncontrollable, and the data on the controlled object is not archived.

Closest to the claimed is the microprocessor-based information management system "Smart House" (RF Patent No. 53510, Н02Н 7/00, G06F 19/00, 2006), which includes N processing and communication units, an automatic control unit consisting of a unit power and a microprocessor connected to the computer, N groups of sensors and N actuators.

The known system is local, in which there is no centralized control outside the guarded object, which does not allow maintaining its operability in case of failure of any of the blocks and will entail the failure of actuators in an emergency.

The technical task is to ensure uninterrupted operation by maintaining the system in case of failure of one of the controllers or / and the automatic control unit due to the ability to control the system from a remote server of the control center, as well as in case of failure of the main and backup communication channel.

The essence of the utility model lies in the fact that the control system, including control sensors, actuators associated with the respective controllers, as well as an automatic control unit located at the control object, can additionally include a control center server with software that allows you to change settings in the program of work the control system, and via the Internet channel connected to the controllers and the automatic control unit. The controllers and the automatic control unit are interconnected by an Ethernet local area network, the automatic control unit is additionally connected by a GSM channel to a remote control center server, and each controller is equipped with a built-in web server available to a computer via Ethernet / Internet and configured to configure the controller operation parameters , viewing sensor readings and manual control of executive devices, as well as transmitting data to a remote server via the Internet channel, and via Ethernet - to the automation unit logical control, which is capable of storing and processing data coming from the specified controllers and a remote server and issuing control commands to executive devices.

In addition, in order to ensure the operability of the system in the absence of wiring in the controlled room, the controller / automatic control unit is connected to the injector unit, which is capable of transmitting power from a nearby voltage source via an 8-pair Ethernet cable to a powered controller / automatic control unit.

The connection of the remote server of the dispatch center via the Internet channel with the controllers and the automatic control unit allows the system to maintain operability in case of failure of these units, because the system is controlled by the dispatcher, who manually issues control commands to actuators connected to the controller or notifies of a problem in case of failure of the controller / automatic control unit, preventing accidents.

If Internet connection is interrupted, the system switches to the backup GSM-channel, thereby preserving its functionality.

The logic of the system is implemented in the automatic control unit, which is the “processor”, performs system management functions and is configured to store, process data coming from the specified controllers and a remote server and issue control commands to executive devices, i.e. provides such functions that allow the system to work autonomously without involving a dispatcher and remote control.

The automatic control unit is connected by channels - the main Internet and backup GSM - with a remote server of the control center.

The controller performs minimal functions and is equipped with a built-in web server accessible to the computer via Ethernet / Internet, configured to configure the controller's operation parameters, view sensor readings and manually control executive devices. Compared with the microprocessor controllers used in the prototype system, which implement wide functionality, these controllers are highly specialized and easy to install.

The controllers and the automatic control unit can be powered using Passive Power over Ethernet (over Ethernets.

Based on this technology, a device has been specially developed for use in a system where, unlike the IEEE 802.3af (Power on Ethernet) standard, a lower supply voltage (12V to 48V) and a different power supply via unused twisted pairs of a network cable are used, provided that networks at a speed of 10 Mbps. Power is supplied to the network cable through a special injector unit, which is capable of transmitting power from a nearby voltage source via an 8-pair Ethernet cable to the controller. The block injector uses phantom power to transmit power, which allows you to install the equipment in the most suitable places for this, despite the lack of wiring.

The inclusion of the injector unit in the system allows you not to think about providing power to the controller / automatic control unit at the installation site, which reduces the labor costs for installing the system in rooms without 220V power sockets.

The structural diagram of the inventive system is presented in the figure.

The inventive system includes installed on the monitoring object 1, a plurality of sensors 2 (2-1 ... 2-N) that monitor temperature, light, smoke, movement, etc. As sensors use discrete, pulse or analog sensors.

Data from sensors 2 are read by the corresponding controllers 3 (3-1 ... 3-N). Controllers 3 are control devices and

flexible monitoring systems designed for the protection and monitoring of various objects, for organizing a system of remote reading from metering devices for electricity, water, heat and the subsequent transfer of accumulated information to a dispatch center via Ethernet / Internet communication channels. Controller 3 contains programmable I / O ports. The design feature of the multifunctional input / output ports of the specified controller 3 allows the use of various sensors and control devices. Controller 3 is equipped with a built-in web server that is accessible to a computer (not shown) via Ethernet / Internet and is used to configure the parameters of the controller 3 itself, view the readings of the connected sensors 2, and manually control the actuators 4 connected to this controller 3.

The controller 3 is powered by a network cable due to the injector unit 5, which is included in the gap of a specific network cable and provides a constant current of 1A and a rated voltage of 12V in the circuit, while a 220 / 12V power supply is used. The injector 5 as part of the system allows the remote device to transmit electrical energy along with data through a standard twisted pair cable in an Ethernet network. Injector 5 uses phantom power to transmit power. You can install the controller 3 in the place of best use, even if there are no electrical outlets. The injector 5 allows not only to significantly save on the cost of power cables and other components, but also to reduce the installation time of the controller 3.

Each controller 3 collects and reads data from the corresponding group of sensors 2, transfers signals to a remote server 6 of the dispatch center 7, and also to the input of the automatic control unit 8 located on object 1.

A remote server 6 with software 9 through communication channels monitors the operation of the system and performs the functions of supervisory control, and, if necessary, can change the settings in the program of work of the control system.

The automatic control unit 8 is a “processor” of signals with or without a built-in web server. Block 8 performs the functions of storing, processing the data coming from the specified controllers 3 and the remote server 6 and issuing control commands through the controllers 3 to the corresponding actuators 4 (4-1 ... 4 N). Block 8 is easy to install and maintain. Block 8 can be a personal computer, a laptop with installed software, or a special device operating in the Ethernet 10 local area network, implementing the entire system management program and connected via the Internet 11 channel to the dispatch center 7. Block 8 also archives incoming data and implements a backup communication channel GSM 12. Channels 10 and 11 are interconnected by a small-sized router (not shown).

The control system, for example, in the event of a fire in the office building after hours, works as follows.

In room 1, a fire occurred on the appliance. Sensor 2-1, sensitive to smoke, type IP-212-41M, sends a signal to the controller 3-1. The signal from the controller 3-1 is transmitted through the network 10 to the remote server 6 of the dispatch center 7 and to the automatic control unit 8. When the unit 8 is in good working order, the latter sends a command to the corresponding controller 3-1 to activate the corresponding actuator 4-1, which includes a fire extinguishing system specified room.

If the Internet channel 11 does not work, then the operator of the dispatch center 7 receives a message from block 8 via the GSM channel 12. If the block 8 fails, the controller 3-1 independently transmits an accident message to the dispatch center 7 via the Internet channel 11. The operator the monitor of the remote server 6 monitors the operation of the system, sending the appropriate commands to the input of block 8.

Claims (2)

1. The control system, including control sensors, actuators associated with the respective controllers, as well as an automatic control unit located at the control object, characterized in that it additionally includes a remote control center server with software that allows you to change the settings in the program of the control system and via the Internet channel connected to the controllers and the automatic control unit, the controllers and the automatic control unit are connected by an Ethernet local area network, the automatic control unit is additionally connected by a GSM channel to a remote control center server, with each controller having a built-in web server available to a computer an Ethernet / Internet network and configured to control the parameters of the controller, view sensor readings and manually control executive devices, as well as transmit data to a remote server via the Internet and Ethernet — to the automatic control unit, which is capable of storage, processing the data coming from the specified controllers and the remote server and issuing control commands to the executive devices. 2. The control system of claim 1, characterized in that it further includes injector blocks configured to transmit power from a nearby voltage source via an 8-pair Ethernet cable to a powered controller / automatic control unit.