CN102999034B - Industrial monitoring system based on Institute of Electrical and Electronics Engineers (IEEE) 1888 standard - Google Patents

Abstract

The invention discloses an industrial monitoring system based on an Institute of Electrical and Electronics Engineers (IEEE) 1888 standard in the technical field of Internet of things. The system comprises a monitoring node, a central monitoring subsystem and a cloud data center, wherein the monitoring node and the central monitoring subsystem are connected to the cloud data center through an internet protocol (IP) backbone network respectively, the monitoring node is used for collecting energy use information of a node device and transmitting the collected energy use information to the cloud data center, the cloud data center is used for storing the energy use information collected by the monitoring node, analyzing and counting the collected energy use information and displaying analyzed and counted results, the central monitoring subsystem is used for extracting the energy use information of the node device from the cloud data center and conducting the energy management for the node device in accordance with the energy use information of the node device, and the monitoring node and the central monitoring subsystem are communicated with the cloud data center through the IEEE 1888 standard protocol respectively. By the aid of the system, the problems in the prior industrial communication technology are solved.

Description

Based on the industrial monitoring system of IEEE1888 standard

Technical field

The invention belongs to technology of Internet of things field, relate in particular to a kind of industrial monitoring system based on IEEE1888 standard.

Background technology

Along with the continuous expansion of industry measurement and control system scale, reducing investment and use cost becomes an urgent demand of industrial communication technical development.Due to communication protocol (mostly being the proprietary protocol of each manufacturer) and the plateform systems of many use sealings in the past, cause mounting, commissioning and maintenance with high costs, become the main bugbear that hinders industrial communication technical development.In addition, the communication protocol of sealing and plateform system have also limited positive participation and the benign competition of manufacturer's (especially medium-sized and small enterprises) of possess skills strength and distinguishing products to a great extent, hinder the optimization of equipment and network structure and changed flexibly, be unfavorable for forming diversification product and complete industrial chain, make industrialized development become difficulty.

IEEE 1888 standards are called again UGCCNET(Ubiquitous Green Community ControlNetwork) standard, ubiquitous green community controls network standard.As the first green ICT standard of initiating and obtain international endorsement by China, IEEE 1888 has not only complied with the trend of technical development, and meet the growth requirement of operator, meet the growth requirement under demand and the international energy-saving and emission-reduction overall background of CHINESE INDUSTRIES development.

Use IEEE 1888 to realize producing full-range remote monitoring with lower investment and use cost, obtain important industrial process data, and can implement based on this optimal control, reach the object of improving the quality of products, reducing commercial production cost and improve energy efficiency.

Summary of the invention

Numerous for the device category existing in the current industrial communication technology, manufacturer is different, cannot realize networking and energy-saving intelligentized problem, proposes a kind of industrial monitoring system based on IEEE1888 standard.

Technical scheme of the present invention is that a kind of industrial monitoring system based on IEEE1888 standard, is characterized in that described system comprises monitoring node, central monitoring subsystem and cloud data center;

Described monitoring node is connected by IP backbone with cloud data center respectively with central monitoring subsystem;

Described monitoring node uses information for the energy of acquisition node equipment, and the energy use information of collection is sent to cloud data center;

Described cloud data center is used information for the energy of storing monitoring node and gathering, and the energy use information gathering is analyzed and added up, and also uses information, analysis result and statistics for the energy that shows collection;

Described central monitoring subsystem uses information for extracting the node device energy from cloud data center, and using information to carry out energy management to node device according to the node device energy, central monitoring subsystem comprises energy management module, running support module and facilities management module; Energy management module, running support module are connected with cloud data center respectively with facilities management module;

Energy management module is used for the energy use information of node device to analyze, and produces node device operation steering order according to analysis result, is then sent to running support module;

Running support module is sent to corresponding node device for node device is moved to steering order, controls the operation of node device;

Facilities management module, for using information according to the energy of node device, is energy-saving device designated facility governing plan;

Described monitoring node and cloud data center communicate by the agreement based on IEEE1888 standard, and described central monitoring subsystem and cloud data center communicate by the agreement based on IEEE1888 standard.

Described monitoring node is main office, branch office and factory.

Described node device comprises generator, air-conditioning or boiler.

The present invention is very suitable for industry spot monitoring management, convergence based on zones of different, different vendor's product, data storage, data analysis evaluation be provided, visually represent, other industrial bus agreements such as remote monitoring are difficult to the function realizing, and make transmission, storage, the displaying of data convenient more flexibly.

Brief description of the drawings

Fig. 1 is the industrial monitoring system structural drawing based on IEEE1888 standard.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment is elaborated.Should be emphasized that, following explanation is only exemplary, instead of in order to limit the scope of the invention and to apply.

Fig. 1 is the industrial monitoring system structural drawing based on IEEE1888 standard.In Fig. 1, the industrial monitoring system based on IEEE1888 standard comprises monitoring node, central monitoring subsystem and cloud data center.

Monitoring node is connected by IP backbone with cloud data center respectively with central monitoring subsystem.Monitoring node uses information for the energy of acquisition node equipment, and the energy use information of collection is sent to cloud data center.Monitoring node can be main office, branch office and factory.Node device comprises the energy consumption equipment such as generator, air-conditioning or boiler.

The energy use information that cloud data center gathers for storing monitoring node, and the energy use information gathering is analyzed and added up, also use information, analysis result and statistics for the energy that shows collection.In cloud data center, can carry out to the data of monitoring the alarm demonstration of the WEB page, run into emergency condition and inform keeper.Realize visual that energy parameter is managed.

Central monitoring subsystem uses information for extracting the node device energy from cloud data center, and using information to carry out energy management to node device according to the node device energy, central monitoring subsystem comprises energy management module, running support module and facilities management module.Energy management module, running support module are connected with cloud data center respectively with facilities management module.

Energy management module is used for the energy use information of node device to analyze, and produces node device operation steering order according to analysis result, is then sent to running support module.Such as, energy management module can be analyzed for the energy use information of the air-conditioning of certain factory, if this air conditioning energy consumption exceeds standard, can produce the steering order that lowers operation of air conditioner power.

Running support module is sent to corresponding node device for node device is moved to steering order, controls the operation of node device.For the node device of receiving running support module operation steering order, can be according to operation steering order adjust operation state.

Facilities management module, for using information according to the energy of node device, is energy-saving device designated facility governing plan.Such as, the summer air-conditioning utilization rate of certain factory is higher, and can specify summer time, the every monthly repair of this air-conditioning once, overhaul once by per season in other seasons.

Monitoring node and cloud data center communicate by the agreement based on IEEE1888 standard, and described central monitoring subsystem and cloud data center communicate by the agreement based on IEEE1888 standard.

The above; only for preferably embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with in technical scope that those skilled in the art disclose in the present invention; the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (3)

1. the industrial monitoring system based on IEEE1888 standard, comprise monitoring node, described monitoring node uses information and the energy use information of collection is sent to cloud data center for the energy of acquisition node equipment, it is characterized in that described system also comprises central monitoring subsystem and cloud data center;

Described monitoring node is connected by IP backbone with cloud data center respectively with central monitoring subsystem;

Described cloud data center is used information for the energy of storing monitoring node and gathering, and the energy use information gathering is analyzed and added up, and also uses information, analysis result and statistics for the energy that shows collection;

Described central monitoring subsystem uses information for extracting the node device energy from cloud data center, and using information to carry out energy management to node device according to the node device energy, central monitoring subsystem comprises energy management module, running support module and facilities management module; Energy management module, running support module are connected with cloud data center respectively with facilities management module;

Energy management module is used for the energy use information of node device to analyze, and produces node device operation steering order according to analysis result, is then sent to running support module;

Running support module is sent to corresponding node device for node device is moved to steering order, controls the operation of node device;

Facilities management module, for using information according to the energy of node device, is energy-saving device designated facility governing plan;

Described monitoring node and cloud data center communicate by the agreement based on IEEE1888 standard, and described central monitoring subsystem and cloud data center communicate by the agreement based on IEEE1888 standard.

2. system according to claim 1, is characterized in that described monitoring node is main office, branch office and factory.

3. system according to claim 1, is characterized in that described node device comprises generator, air-conditioning or boiler.