CN111182032A - Industrial park data integrated management system and control method - Google Patents

Abstract

The invention discloses an industrial park data integrated management system, which comprises a management client, a plurality of enterprise clients, a server, a communication network and a data acquisition device, wherein the management client is connected with the plurality of enterprise clients through the server; the management client and the enterprise client are both connected with the server, and the data acquisition device is connected with the server through a communication network; the beneficial technical effects of the invention are as follows: the scheme can realize the data integrated management of the industrial park, effectively reduce the park management cost, improve the management efficiency and enable people to timely and accurately master the energy use condition.

Description

Industrial park data integrated management system and control method

Technical Field

The invention relates to a data integration management technology, in particular to an industrial park data integration management system and a control method.

Background

The water, electricity and pollution discharge conditions of enterprises in the park can be mastered timely and accurately, so that the operation management efficiency of the industrial park can be effectively improved, and powerful data support can be provided for park management decisions; the existing industrial park has the problems of difficult information collection, poor timeliness and poor accuracy due to the fact that collection and management of energy information are relatively extensive.

Disclosure of Invention

Aiming at the problems in the background art, the invention provides an industrial park data integrated management system, which is innovative in that: the industrial park data integrated management system comprises a management client, a plurality of enterprise clients, a server, a communication network and a data acquisition device;

the management client and the enterprise client are both connected with the server, and the data acquisition device is connected with the server through a communication network;

the data acquisition device is used for acquiring detection data of a plurality of instruments in the park and transmitting the acquired data to the server through a communication network; the instruments and meters comprise a liquid level meter, a mechanical water meter, an ammeter, a PH meter, an electromagnetic water meter, a vortex shedding flowmeter, an electromagnetic flowmeter and a noise monitor;

the server can analyze and store the data output by the data acquisition device, and a user can look up the data from the data acquisition device stored in the server through the management client; the server can also periodically process the stored data, generate various charts according to the processing result and transmit the charts to the management client; the chart includes: a plot of the total electric energy consumption trend of the garden, a plot of the total water consumption trend of the garden, a plot of the total sewage discharge capacity trend of the garden, plots of the electric energy consumption trend of each enterprise, a plot of the water consumption trend of each enterprise, a plot of the sewage discharge capacity trend of each enterprise, and a real-time variation graph of the reserves of various storage tank facilities;

the management client can generate various charge tables according to various charts and can send the various charge tables to corresponding enterprise clients through the server; the tariff includes: the system comprises an electric charge charging table of each enterprise, a water charge charging table of each enterprise and a pollution discharge charging table of each enterprise;

a single enterprise client can retrieve a chart matching the enterprise client through the server (i.e., a single enterprise client can only retrieve the chart of the enterprise corresponding to the enterprise client).

Preferably, the communication network employs one, two, three or four of local area network, GPRS, NB-IoT and Lora; in specific implementation, the method can be reasonably selected according to the specific conditions of network coverage, signal strength, transmission rate and the like of the park.

Based on the foregoing solution, the present invention further provides a control method for an industrial park data integration management system, where the industrial park data integration management system is as described above, and the specific control method includes:

the industrial park data integrated management system has three working modes: a data monitoring mode, a data management mode and a charging mode; the three working modes are operated in parallel;

in a data monitoring mode: the data acquisition device is provided with a plurality of ports, and each port corresponds to one instrument; each port is provided with a unique identification code which is prestored in the data acquisition device and the server; when the data acquisition device receives detection data output by the instrument, the data acquisition device packs and sends the identification code and the detection data which are matched with each other to the server; a total data storage area, a plurality of storage tank data storage areas and a plurality of enterprise data storage areas are preset in the server; the total data storage area governs three first sub-areas, and the three first sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; the enterprise data storage area governs three second sub-areas, and the three second sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; each enterprise storage area corresponds to one enterprise; when data output by the data acquisition device is received, if the data is related to electricity consumption, water consumption or sewage discharge, the server stores the data into the first sub-area according to the identification code, meanwhile, the server stores the data into the second sub-area according to the identification code, and if the data is related to a storage tank facility, the server stores the data into a storage tank data storage area according to the identification code;

in a data management mode: the server periodically counts the data in the single first subarea, the single second subarea and the single storage tank data storage area, generates a corresponding chart according to the statistical result, and transmits the chart to the management client;

in the charging mode: the power consumption, the water consumption and the sewage discharge of each enterprise are provided with unique charging codes, the charging codes are prestored in the server and the management client, and when the server outputs a chart to the management client, if the chart corresponds to a single enterprise, the server packs and transmits the charging codes and the chart which are matched with each other to the management client; the management client identifies the corresponding relation between the chart and the enterprise according to the charging codes, then generates a corresponding charging table according to the set charging standard, then packages and sends the charging codes and the charging table which are matched with each other to the server, and the server sends the charging table to the corresponding enterprise client according to the charging codes.

After the scheme of the invention is adopted, the energy consumption condition can be consulted in real time through the management client and the enterprise client, so that the energy consumption information can be accurately mastered; in specific implementation, the management client can be subjected to extension application, for example, a three-dimensional live-action map of a park can be constructed, the management client displays each factory building and various instruments and meters of the park in a three-dimensional live-action map mode, and various data acquired by the data acquisition device are displayed on the corresponding instruments and meters on the three-dimensional live-action map in real time, so that a very humanized information monitoring system can be obtained. In addition, based on data integration, various analysis schemes can be designed, such as statistical analysis on historical data by day, month or quarter;

the beneficial technical effects of the invention are as follows: the scheme can realize the data integrated management of the industrial park, effectively reduce the park management cost, improve the management efficiency and enable people to timely and accurately master the energy use condition.

Drawings

FIG. 1 is a schematic diagram of the principles of the present invention;

the names corresponding to each mark in the figure are respectively: the system comprises a management client 1, an enterprise client 2, a server 3, a communication network 4 and a data acquisition device 5.

Detailed Description

The utility model provides an industrial park data integration management system which innovation lies in: the industrial park data integrated management system comprises a management client 1, a plurality of enterprise clients 2, a server 3, a communication network 4 and a data acquisition device 5;

the management client 1 and the enterprise client 2 are both connected with the server 3, and the data acquisition device 5 is connected with the server 3 through the communication network 4;

the data acquisition device 5 is used for acquiring detection data of a plurality of instruments in the park and transmitting the acquired data to the server 3 through the communication network 4; the instruments and meters comprise a liquid level meter, a mechanical water meter, an ammeter, a PH meter, an electromagnetic water meter, a vortex shedding flowmeter, an electromagnetic flowmeter and a noise monitor;

the server 3 can analyze and store the data output by the data acquisition device 5, and a user can look up the data from the data acquisition device 5 stored in the server 3 through the management client 1; the server 3 can also periodically process the stored data, generate various charts according to the processing result and transmit the charts to the management client 1; the chart includes: a plot of the total electric energy consumption trend of the garden, a plot of the total water consumption trend of the garden, a plot of the total sewage discharge capacity trend of the garden, plots of the electric energy consumption trend of each enterprise, a plot of the water consumption trend of each enterprise, a plot of the sewage discharge capacity trend of each enterprise, and a real-time variation graph of the reserves of various storage tank facilities;

the management client 1 can generate various charge tables according to various charts and can send the various charge tables to the corresponding enterprise client 2 through the server 3; the tariff includes: the system comprises an electric charge charging table of each enterprise, a water charge charging table of each enterprise and a pollution discharge charging table of each enterprise;

a single enterprise client 2 can retrieve a chart matching that enterprise client 2 through the server 3.

Further, the communication network 4 employs one, two, three or four of local area network, GPRS, NB-IoT and Lora.

A control method of an industrial park data integrated management system comprises a management client 1, a plurality of enterprise clients 2, a server 3, a communication network 4 and a data acquisition device 5;

the management client 1 and the enterprise client 2 are both connected with the server 3, and the data acquisition device 5 is connected with the server 3 through the communication network 4;

the data acquisition device 5 is used for acquiring detection data of a plurality of instruments in the park and transmitting the acquired data to the server 3 through the communication network 4; the instruments and meters comprise a liquid level meter, a mechanical water meter, an ammeter, a PH meter, an electromagnetic water meter, a vortex shedding flowmeter, an electromagnetic flowmeter and a noise monitor;

the server 3 can analyze and store the data output by the data acquisition device 5, and a user can look up the data from the data acquisition device 5 stored in the server 3 through the management client 1; the server 3 can also periodically process the stored data, generate various charts according to the processing result and transmit the charts to the management client 1; the chart includes: a plot of the total electric energy consumption trend of the garden, a plot of the total water consumption trend of the garden, a plot of the total sewage discharge capacity trend of the garden, plots of the electric energy consumption trend of each enterprise, a plot of the water consumption trend of each enterprise, a plot of the sewage discharge capacity trend of each enterprise, and a real-time variation graph of the reserves of various storage tank facilities;

the management client 1 can generate various charge tables according to various charts and can send the various charge tables to the corresponding enterprise client 2 through the server 3; the tariff includes: the system comprises an electric charge charging table of each enterprise, a water charge charging table of each enterprise and a pollution discharge charging table of each enterprise;

the enterprise client 2 can read the chart matched with the enterprise client 2 through the server 3;

the innovation lies in that: the control method comprises the following steps:

the industrial park data integrated management system has three working modes: a data monitoring mode, a data management mode and a charging mode; the three working modes are operated in parallel;

in a data monitoring mode: the data acquisition device 5 is provided with a plurality of ports, and each port corresponds to one instrument; each port has a unique identification code, and the identification code is prestored in the data acquisition device 5 and the server 3; when the data acquisition device 5 receives the detection data output by the instrument, the data acquisition device 5 packs and sends the identification code and the detection data which are matched with each other to the server 3; a total data storage area, a plurality of storage tank data storage areas and a plurality of enterprise data storage areas are preset in the server 3; the total data storage area governs three first sub-areas, and the three first sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; the enterprise data storage area governs three second sub-areas, and the three second sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; each enterprise storage area corresponds to one enterprise; when receiving the data output by the data acquisition device 5, if the data is related to the electricity consumption, the water consumption or the sewage discharge amount, the server 3 stores the data into the first sub-area according to the identification code, meanwhile, the server 3 stores the data into the second sub-area according to the identification code, and if the data is related to the storage tank facility, the server 3 stores the data into the storage tank data storage area according to the identification code;

in a data management mode: the server 3 periodically counts the data in the single first sub-area, the single second sub-area and the single storage tank data storage area, generates a corresponding chart according to the statistical result, and then transmits the chart to the management client 1;

in the charging mode: the power consumption, the water consumption and the sewage discharge of each enterprise are provided with unique charging codes, the charging codes are prestored in the server 3 and the management client 1, and when the server 3 outputs a chart to the management client 1, if the chart corresponds to a single enterprise, the server 3 packs and transmits the charging codes and the chart which are matched with each other to the management client 1; the management client 1 identifies the corresponding relation between the chart and the enterprise according to the charging code, then generates a corresponding charging table according to the set charging standard, then the management client 1 packages and sends the mutually matched charging code and the charging table to the server 3, and the server 3 sends the charging table to the corresponding enterprise client 2 according to the charging code.

Claims (3)

1. The utility model provides an industrial park data integration management system which characterized in that: the industrial park data integrated management system comprises a management client (1), a plurality of enterprise clients (2), a server (3), a communication network (4) and a data acquisition device (5);

the management client (1) and the enterprise client (2) are both connected with the server (3), and the data acquisition device (5) is connected with the server (3) through the communication network (4);

the data acquisition device (5) is used for acquiring detection data of a plurality of instruments in the park and transmitting the acquired data to the server (3) through the communication network (4); the instruments and meters comprise a liquid level meter, a mechanical water meter, an ammeter, a PH meter, an electromagnetic water meter, a vortex shedding flowmeter, an electromagnetic flowmeter and a noise monitor;

the server (3) can analyze and store the data output by the data acquisition device (5), and a user can look up the data from the data acquisition device (5) stored in the server (3) through the management client (1); the server (3) can also periodically process the stored data, generate various charts according to the processing result and transmit the charts to the management client (1); the chart includes: a plot of the total electric energy consumption trend of the garden, a plot of the total water consumption trend of the garden, a plot of the total sewage discharge capacity trend of the garden, plots of the electric energy consumption trend of each enterprise, a plot of the water consumption trend of each enterprise, a plot of the sewage discharge capacity trend of each enterprise, and a real-time variation graph of the reserves of various storage tank facilities;

the management client (1) can generate various charge tables according to various charts and can send the various charge tables to the corresponding enterprise client (2) through the server (3); the tariff includes: the system comprises an electric charge charging table of each enterprise, a water charge charging table of each enterprise and a pollution discharge charging table of each enterprise;

a single enterprise client (2) can retrieve a chart matching the enterprise client (2) through the server (3).

2. The industrial park data integrated management system according to claim 1, wherein: the communication network (4) employs one, two, three or four of local area network, GPRS, NB-IoT and Lora.

3. A control method of an industrial park data integrated management system comprises a management client (1), a plurality of enterprise clients (2), a server (3), a communication network (4) and a data acquisition device (5);

the management client (1) and the enterprise client (2) are both connected with the server (3), and the data acquisition device (5) is connected with the server (3) through the communication network (4);

the data acquisition device (5) is used for acquiring detection data of a plurality of instruments in the park and transmitting the acquired data to the server (3) through the communication network (4); the instruments and meters comprise a liquid level meter, a mechanical water meter, an ammeter, a PH meter, an electromagnetic water meter, a vortex shedding flowmeter, an electromagnetic flowmeter and a noise monitor;

the server (3) can analyze and store the data output by the data acquisition device (5), and a user can look up the data from the data acquisition device (5) stored in the server (3) through the management client (1); the server (3) can also periodically process the stored data, generate various charts according to the processing result and transmit the charts to the management client (1); the chart includes: a plot of the total electric energy consumption trend of the garden, a plot of the total water consumption trend of the garden, a plot of the total sewage discharge capacity trend of the garden, plots of the electric energy consumption trend of each enterprise, a plot of the water consumption trend of each enterprise, a plot of the sewage discharge capacity trend of each enterprise, and a real-time variation graph of the reserves of various storage tank facilities;

the management client (1) can generate various charge tables according to various charts and can send the various charge tables to the corresponding enterprise client (2) through the server (3); the tariff includes: the system comprises an electric charge charging table of each enterprise, a water charge charging table of each enterprise and a pollution discharge charging table of each enterprise;

a single enterprise client (2) can retrieve a chart matched with the enterprise client (2) through the server (3);

the method is characterized in that: the control method comprises the following steps:

the industrial park data integrated management system has three working modes: a data monitoring mode, a data management mode and a charging mode; the three working modes are operated in parallel;

in a data monitoring mode: a plurality of ports are arranged on the data acquisition device (5), and each port corresponds to one instrument; each port has a unique identification code which is prestored in the data acquisition device (5) and the server (3); when the data acquisition device (5) receives the detection data output by the instrument, the data acquisition device (5) packs and sends the identification code and the detection data which are matched with each other to the server (3); a total data storage area, a plurality of storage tank data storage areas and a plurality of enterprise data storage areas are preset in the server (3); the total data storage area governs three first sub-areas, and the three first sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; the enterprise data storage area governs three second sub-areas, and the three second sub-areas correspond to electricity consumption, water consumption and sewage discharge respectively; each enterprise storage area corresponds to one enterprise; when data output by the data acquisition device (5) are received, if the data are related to electricity consumption, water consumption or sewage discharge, the server (3) stores the data into the first sub-area according to the identification codes, meanwhile, the server (3) stores the data into the second sub-area according to the identification codes, and if the data are related to storage tank facilities, the server (3) stores the data into a storage tank data storage area according to the identification codes;

in a data management mode: the server (3) periodically counts the data in the single first sub-area, the single second sub-area and the single storage tank data storage area, generates a corresponding chart according to the statistical result, and then transmits the chart to the management client (1);

in the charging mode: the power consumption, the water consumption and the sewage discharge of each enterprise are provided with unique billing codes, the billing codes are prestored in the server (3) and the management client (1), and when the server (3) outputs a chart to the management client (1), if the chart corresponds to a single enterprise, the server (3) packs and transmits the mutually matched billing codes and charts to the management client (1); the management client (1) identifies the corresponding relation between the chart and the enterprise according to the charging codes, then generates a corresponding charging table according to the set charging standard, then the management client (1) packages and sends the mutually matched charging codes and charging table to the server (3), and the server (3) sends the charging table to the corresponding enterprise client (2) according to the charging codes.

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