RU2509329C1 - Universal information processing system - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: universal information processing system has a two-module design. The upper module includes a voltage stabiliser, power supply units of the main blocks of the system, as well as two filter baffle plates, one of which is fitted with a cooler, two external forced air coolers, 5 IP54 insulated 8P8C standard leads, one high frequency socket for a communication module antenna, an electric power lead, and a lower module which includes a universal information processing device, a communication device, a tunable switch for wire connection, a climatic system consisting of two internal forced air coolers, two "for cooling" and "for heating" thermostats, an electric heater for automation cabinets, two thermoelectric converter, which enables to optimise parameters of the medium in the inner, insulated volume of the lower module.

EFFECT: higher efficiency of operating a universal information processing system.

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Description

The invention relates to the field of information technology, in particular to computer and information technology, and can be used in automated control systems for the technical parameters of industrial facilities, in particular in automated diagnostic systems that operate both independently and as part of multilevel information management systems distributed over large areas and without wired communication lines.

The closest in technical essence and the achieved effect to the proposed is a wireless system for monitoring the technical parameters of industrial facilities and the method of its implementation [patent No. 2430399 (Russian Federation), IPC http://www.sibpatent.ru/patent.asp?ptncls=G05B015/ 00 & mpkcls = G05B015 http://www.sibpatent.ru/patent.asp “Wireless system for monitoring the technical parameters of industrial facilities and a method for its implementation”, authors: V.M. Karyuk, O.B. Vyskubenko; patent holder: CJSC "Association BINAR", publ. 09/27/11], containing a base radio station, equipped with a power supply, connected by a wireless channel with sensor modules, in the housing of which a power source, a physical quantity sensor, a primary device for transmitting data are located, sensor modules are divided into groups and each group is connected to the base radio station by wireless communication through routers, and the base station is connected via a wired channel to an automatic workstation, which contains the means of mathematical processing of the received information and means for displaying information processing results, as well as a device for storing received information, and each sensor module further comprises a primary data processing device that is electrically connected to a physical quantity sensor, which is electrically connected to a primary data transmission device, and each of the routers is equipped with a secondary data processing device, while routers have the ability to communicate with each other wirelessly.

The disadvantages of this installation is that the base station is connected via a wired channel to an automated workstation (AWP), in addition, the processing tools for the information received are located on the AWP and the information received from the sensors is fully transmitted through the base radio to the AWP. These shortcomings entail a limitation of the localization of the use of the system and an increase in traffic and the amount of information transmitted, as well as an increase in the workstation load due to the need to process a large amount of data.

An object of the invention are: increasing the efficiency of operation and control of the control object; increasing the autonomy of the technical parameters management system; reduction in traffic between different segments of the global management and monitoring system; reducing the load on the operator's workstation.

To solve the technical problem of the invention, a universal information processing complex has been proposed, characterized in that it is made in two-module design: the power equipment is located in the upper module, information processing equipment is located in the lower module, the upper module contains a voltage regulator, power supplies for the main components of the complex, which include a universal information processing device, a communication device, a customizable switch, a climate system, thermoelectric converters, as well as two filter partitions with a cooler installed on one of them, two external forced-air coolers, 5 insulated in protection class IP54 input standard 8Р8С, one high-frequency connector for the antenna of the communication module, electrical input, lower module, which contains a universal information processing device, moreover, it provides for the possibility of expanding the amount of memory for using the complex as a data server, i.e. state / work tracking facility, communication device - 3G router for wireless communication, customizable switch for wired connection, climate complex consisting of two internal coolers with forced airflow, two thermostats for cooling and heating, an electric heater for automation cabinets, two thermoelectric converters, which allows optimizing environmental parameters in the internal, isolated volume of the lower module, information processing complex and executed by protection class IP54 not lower to the upper module and lower module to IP65, materials, shielding internal components of the complex electromagnetic fields, the modular architecture allows to optimize its complex composition under a specific task.

The technical result of the invention lies in the possibility of recording, processing, storing and transmitting information, regulating processes according to the established algorithm. The scope of the complex includes the following: manufacturing enterprises located both in a separate building and in the aggregate of buildings; manufacturing enterprises or facilities on the territory of which conditions are created in which the functioning of electronic equipment is difficult (inappropriate climatic conditions of the environment, the presence of external electromagnetic fields of high tension, etc.).

In FIG. 1 shows a view of a common universal information processing complex.

A universal complex of information processing (Fig. 1) is made in a two-module design. The upper module contains: an automatic switch 19, a screw terminal 20, a single-phase voltage stabilizer 12, a power supply unit for the information processing module 13, a power supply unit for a custom switch 14, a power supply unit for 3G router 16, a power supply unit for coolers of the climate system 15, a power supply unit for thermoelectric converters 17, industrial outlet for inputting electrical power 18, filter fan 10, output filter 11, two external coolers with forced air blow 6, insulated module for connecting 3 patch cords from the connector 8Р8С 21 standard, combined insulated module for connecting 2 patch cords with 8Р8С standard connectors and a high-frequency connector for connecting antenna 22. In the lower module are located: information processing module 1, switch 2 configurable, 3G router 3, “cooling” thermostat 8 , thermostat “for heating” 9, two internal coolers with forced blowing 5, a heating element for automation cabinets 7. A sealing membrane with profile holes for thermoelectric converters is installed between the cases and (Peltier elements) 4.

The proposed information processing complex works as follows.

To turn on the power of the complex, we connect a special power cable to the industrial outlet 18 and apply voltage, after which the voltage is supplied to the circuit breaker 19, which performs the function of protecting the complex from excessive voltage surges. From the circuit breaker, voltage is supplied to voltage stabilizer 12, which is necessary to equalize the characteristics of the electric current supplied to the electronic modules of the complex. The output from the voltage regulator is output to terminal block 20, where all the supply circuits of the complex are connected. When voltage is applied to the terminals, power is supplied to the power supply units of the information processing module 13, the configurable switch 14, 3G of the router 16, as well as to the thermostats “for cooling” 8 and “for heating” 9. Thus, the complex is put into operation and can to fulfill their functions. To connect the complex with terminal sensors, they are connected using patch cords with 8P8C standard connectors through an isolated module for connecting 21 and a combined isolated module for connecting 22. To establish wireless communication with the complex, we connect a high-frequency 3G antenna through a combined isolated module for connecting 22.

If the environmental parameters inside the complex go beyond normal values, the climate system turns on. If the set temperature is exceeded, the thermostat for cooling 8 closes the circuit and power is supplied to the power supply unit 15 of the internal 5 and external 6 coolers, after which it starts to force-blow them with coolers. In parallel, power is supplied to the power supply unit of the Peltier elements 17, after which the thermoelectric converters begin to cool from the bottom side and warm from the top. An internal cooler 5 mounted to the Peltier element 4 begins to cool and when air is blown through it cools it, thereby lowering the temperature inside the lower, insulated module. At the same time, the upper part of the Peltier elements 4 is heated. The external cooler 6 mounted on it absorbs heat and dissipates it inside the volume of the upper module. In order to avoid an uncontrolled increase in temperature in the upper module, simultaneously with the inclusion of coolers 5,6 and Pelt 4, power is supplied to the filter fan 10, during which there is a forced change in the air volume in the upper module, which leaves through the output filter 11. When lowering temperature in the lower module to the set value, thermostat 8 opens the circuit and the air conditioner stops its work. If the temperature drops below the set value, the thermostat “for heating” 9 closes the circuit and power is supplied to the heating element 7. The temperature of the air in contact with the heater rises and its convective movement occurs inside the lower, insulated module. When the temperature in the lower module rises to the set value, the thermostat 9 opens the circuit and the heating element 7 stops its operation. Heating of the upper module in the complex is not provided, since the equipment installed in it does not need it.

The local area network within the complex is constructed as follows: information processor 1 and 3G router 3 are connected to configurable switch 2 using patch cords with 8P8C standard connectors. The outputs from configurable switch 2 to the isolated module for connecting 21 and combined insulated module for connecting 22. In addition, with the information processing module 1, you can interact through the interface of the universal serial bus USB. With the 3G module, the high-frequency connector is output to the combined insulated module for connecting 22.

The proposed universal information processing complex allows you to:

- carry out the reception and storage of information during the period of relevance;

- to process the information received, depending on the task;

- provide alerts to the operator by generating periodic or emergency reports;

- regulate processes according to the laid algorithm;

- monitor and diagnose equipment;

- in addition, it is adapted to adverse climatic conditions and for use in areas with strong electromagnetic fields.

Claims (1)

A universal information processing complex, characterized in that it is made in a two-module version: power equipment is located in the upper module, information processing equipment is located in the lower module, the upper module contains a voltage stabilizer, power supply units of the main components of the complex, which include a universal processing device information, communication device, customizable switch, climate system, thermoelectric converters, as well as two filter partitions, with installed and one of them is a cooler, two external coolers with forced airflow, 5 insulated in protection class IP54 input standard 8Р8С, one high-frequency connector for the antenna of the communication module, the input of electrical power and the lower module, which contains a universal information processing device, and in it It is possible to expand the amount of memory for using the complex as a data server, i.e. state / work tracking facility, communication device - 3G router for wireless communication, customizable switch for wired connection, climate system, consisting of two internal coolers with forced airflow, two thermostats for cooling and heating, an electric heater for automation cabinets, two thermoelectric converters, which allows optimizing environmental parameters in the internal, isolated volume of the lower module, information processing complex and it is made in a protection class of at least IP54 for the upper module and IP65 for the lower module, from materials that shield the internal elements of the complex from electromagnetic fields, the modular architecture of the complex allows optimizing its composition for specific tasks, which include: use in the processing of information necessary to maintain the operability of automated technological processes, data processing from peripheral devices, use as a primary processing complex and information in the construction of diagnostic and monitoring systems, use for storing information and as an independent transfer device having the ability to connect / use in wireless / wired systems and networks.